WO2014123212A1 - 固体状ポリアルミノキサン組成物、オレフィン重合用触媒、オレフィン重合体の製造方法、および固体状ポリアルミノキサン組成物の製造方法 - Google Patents
固体状ポリアルミノキサン組成物、オレフィン重合用触媒、オレフィン重合体の製造方法、および固体状ポリアルミノキサン組成物の製造方法 Download PDFInfo
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- WO2014123212A1 WO2014123212A1 PCT/JP2014/052856 JP2014052856W WO2014123212A1 WO 2014123212 A1 WO2014123212 A1 WO 2014123212A1 JP 2014052856 W JP2014052856 W JP 2014052856W WO 2014123212 A1 WO2014123212 A1 WO 2014123212A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- polyaluminoxane composition
- solid polyaluminoxane
- test example
- mmol
- solid
- Prior art date
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- 239000000203 mixture Substances 0.000 title claims abstract description 610
- 239000007787 solid Substances 0.000 title claims abstract description 496
- 150000001336 alkenes Chemical class 0.000 title claims abstract description 81
- JRZJOMJEPLMPRA-UHFFFAOYSA-N olefin Natural products CCCCCCCC=C JRZJOMJEPLMPRA-UHFFFAOYSA-N 0.000 title claims abstract description 75
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 62
- 229920000098 polyolefin Polymers 0.000 title claims abstract description 39
- 239000003054 catalyst Substances 0.000 title abstract description 97
- 238000006116 polymerization reaction Methods 0.000 title description 82
- YXFVVABEGXRONW-UHFFFAOYSA-N Toluene Chemical compound CC1=CC=CC=C1 YXFVVABEGXRONW-UHFFFAOYSA-N 0.000 claims abstract description 1030
- 238000000034 method Methods 0.000 claims abstract description 145
- VLKZOEOYAKHREP-UHFFFAOYSA-N n-Hexane Chemical compound CCCCCC VLKZOEOYAKHREP-UHFFFAOYSA-N 0.000 claims abstract description 117
- 125000000217 alkyl group Chemical group 0.000 claims abstract description 56
- WYURNTSHIVDZCO-SVYQBANQSA-N oxolane-d8 Chemical compound [2H]C1([2H])OC([2H])([2H])C([2H])([2H])C1([2H])[2H] WYURNTSHIVDZCO-SVYQBANQSA-N 0.000 claims abstract description 19
- -1 alkyl imide Chemical class 0.000 claims description 151
- 239000002245 particle Substances 0.000 claims description 115
- 150000002894 organic compounds Chemical class 0.000 claims description 111
- 239000000706 filtrate Substances 0.000 claims description 99
- 150000002430 hydrocarbons Chemical class 0.000 claims description 95
- JLTRXTDYQLMHGR-UHFFFAOYSA-N trimethylaluminium Chemical compound C[Al](C)C JLTRXTDYQLMHGR-UHFFFAOYSA-N 0.000 claims description 77
- 150000001875 compounds Chemical class 0.000 claims description 72
- 125000004432 carbon atom Chemical group C* 0.000 claims description 66
- 239000002904 solvent Substances 0.000 claims description 62
- 238000003756 stirring Methods 0.000 claims description 54
- WYURNTSHIVDZCO-UHFFFAOYSA-N Tetrahydrofuran Chemical compound C1CCOC1 WYURNTSHIVDZCO-UHFFFAOYSA-N 0.000 claims description 50
- 125000002496 methyl group Chemical group [H]C([H])([H])* 0.000 claims description 43
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 claims description 41
- 229910052782 aluminium Inorganic materials 0.000 claims description 40
- 125000003118 aryl group Chemical group 0.000 claims description 34
- 238000005259 measurement Methods 0.000 claims description 31
- 150000003623 transition metal compounds Chemical class 0.000 claims description 29
- 125000004435 hydrogen atom Chemical group [H]* 0.000 claims description 27
- 238000002354 inductively-coupled plasma atomic emission spectroscopy Methods 0.000 claims description 27
- 150000003624 transition metals Chemical class 0.000 claims description 27
- 238000010438 heat treatment Methods 0.000 claims description 25
- 230000000737 periodic effect Effects 0.000 claims description 25
- YLQBMQCUIZJEEH-UHFFFAOYSA-N tetrahydrofuran Natural products C=1C=COC=1 YLQBMQCUIZJEEH-UHFFFAOYSA-N 0.000 claims description 25
- 238000005160 1H NMR spectroscopy Methods 0.000 claims description 21
- LFQSCWFLJHTTHZ-UHFFFAOYSA-N Ethanol Chemical compound CCO LFQSCWFLJHTTHZ-UHFFFAOYSA-N 0.000 claims description 20
- 239000002685 polymerization catalyst Substances 0.000 claims description 20
- 229930195733 hydrocarbon Natural products 0.000 claims description 19
- 229910052723 transition metal Inorganic materials 0.000 claims description 19
- 125000004429 atom Chemical group 0.000 claims description 18
- 125000005843 halogen group Chemical group 0.000 claims description 17
- 239000004215 Carbon black (E152) Substances 0.000 claims description 16
- 150000002576 ketones Chemical class 0.000 claims description 16
- 125000004430 oxygen atom Chemical group O* 0.000 claims description 16
- 230000008569 process Effects 0.000 claims description 15
- 125000003710 aryl alkyl group Chemical group 0.000 claims description 13
- 125000000753 cycloalkyl group Chemical group 0.000 claims description 13
- AZDRQVAHHNSJOQ-UHFFFAOYSA-N alumane Chemical group [AlH3] AZDRQVAHHNSJOQ-UHFFFAOYSA-N 0.000 claims description 12
- 238000001914 filtration Methods 0.000 claims description 12
- 150000001299 aldehydes Chemical class 0.000 claims description 11
- 125000003545 alkoxy group Chemical group 0.000 claims description 10
- 150000001732 carboxylic acid derivatives Chemical class 0.000 claims description 8
- 238000004993 emission spectroscopy Methods 0.000 claims description 8
- 230000032683 aging Effects 0.000 claims description 6
- 125000005103 alkyl silyl group Chemical group 0.000 claims description 6
- 125000004104 aryloxy group Chemical group 0.000 claims description 5
- 238000000151 deposition Methods 0.000 claims description 5
- 239000004711 α-olefin Substances 0.000 claims description 4
- 230000000379 polymerizing effect Effects 0.000 claims description 3
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 abstract description 25
- 239000000377 silicon dioxide Substances 0.000 abstract description 12
- 238000012360 testing method Methods 0.000 description 438
- 239000000243 solution Substances 0.000 description 264
- 238000007792 addition Methods 0.000 description 118
- 239000002002 slurry Substances 0.000 description 111
- 238000006243 chemical reaction Methods 0.000 description 107
- HUMNYLRZRPPJDN-UHFFFAOYSA-N benzaldehyde Chemical compound O=CC1=CC=CC=C1 HUMNYLRZRPPJDN-UHFFFAOYSA-N 0.000 description 94
- 238000001556 precipitation Methods 0.000 description 90
- IUVCFHHAEHNCFT-INIZCTEOSA-N 2-[(1s)-1-[4-amino-3-(3-fluoro-4-propan-2-yloxyphenyl)pyrazolo[3,4-d]pyrimidin-1-yl]ethyl]-6-fluoro-3-(3-fluorophenyl)chromen-4-one Chemical compound C1=C(F)C(OC(C)C)=CC=C1C(C1=C(N)N=CN=C11)=NN1[C@@H](C)C1=C(C=2C=C(F)C=CC=2)C(=O)C2=CC(F)=CC=C2O1 IUVCFHHAEHNCFT-INIZCTEOSA-N 0.000 description 82
- 238000002474 experimental method Methods 0.000 description 52
- QNGNSVIICDLXHT-UHFFFAOYSA-N para-ethylbenzaldehyde Natural products CCC1=CC=C(C=O)C=C1 QNGNSVIICDLXHT-UHFFFAOYSA-N 0.000 description 47
- KWOLFJPFCHCOCG-UHFFFAOYSA-N Acetophenone Chemical compound CC(=O)C1=CC=CC=C1 KWOLFJPFCHCOCG-UHFFFAOYSA-N 0.000 description 46
- 239000006228 supernatant Substances 0.000 description 46
- XUIMIQQOPSSXEZ-UHFFFAOYSA-N Silicon Chemical group [Si] XUIMIQQOPSSXEZ-UHFFFAOYSA-N 0.000 description 36
- 229910052710 silicon Inorganic materials 0.000 description 34
- 125000000058 cyclopentadienyl group Chemical group C1(=CC=CC1)* 0.000 description 33
- BDCFWIDZNLCTMF-UHFFFAOYSA-N 2-phenylpropan-2-ol Chemical compound CC(C)(O)C1=CC=CC=C1 BDCFWIDZNLCTMF-UHFFFAOYSA-N 0.000 description 32
- IMNFDUFMRHMDMM-UHFFFAOYSA-N N-Heptane Chemical compound CCCCCCC IMNFDUFMRHMDMM-UHFFFAOYSA-N 0.000 description 31
- 125000001424 substituent group Chemical group 0.000 description 31
- FXLOVSHXALFLKQ-UHFFFAOYSA-N p-tolualdehyde Chemical compound CC1=CC=C(C=O)C=C1 FXLOVSHXALFLKQ-UHFFFAOYSA-N 0.000 description 30
- 239000010703 silicon Substances 0.000 description 30
- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 28
- DIOQZVSQGTUSAI-UHFFFAOYSA-N decane Chemical compound CCCCCCCCCC DIOQZVSQGTUSAI-UHFFFAOYSA-N 0.000 description 28
- 230000000630 rising effect Effects 0.000 description 28
- 238000009826 distribution Methods 0.000 description 27
- 238000002360 preparation method Methods 0.000 description 27
- 238000010908 decantation Methods 0.000 description 24
- 239000010936 titanium Substances 0.000 description 24
- 239000002994 raw material Substances 0.000 description 23
- CSCPPACGZOOCGX-UHFFFAOYSA-N Acetone Chemical compound CC(C)=O CSCPPACGZOOCGX-UHFFFAOYSA-N 0.000 description 21
- ZSWFCLXCOIISFI-UHFFFAOYSA-N endo-cyclopentadiene Natural products C1C=CC=C1 ZSWFCLXCOIISFI-UHFFFAOYSA-N 0.000 description 21
- 229910052757 nitrogen Inorganic materials 0.000 description 21
- 238000001816 cooling Methods 0.000 description 20
- 238000002386 leaching Methods 0.000 description 20
- 230000000694 effects Effects 0.000 description 19
- WVDDGKGOMKODPV-UHFFFAOYSA-N Benzyl alcohol Chemical compound OCC1=CC=CC=C1 WVDDGKGOMKODPV-UHFFFAOYSA-N 0.000 description 18
- QCWXUUIWCKQGHC-UHFFFAOYSA-N Zirconium Chemical compound [Zr] QCWXUUIWCKQGHC-UHFFFAOYSA-N 0.000 description 18
- 239000007788 liquid Substances 0.000 description 18
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 17
- 229910052760 oxygen Inorganic materials 0.000 description 17
- 239000001301 oxygen Substances 0.000 description 17
- 239000011949 solid catalyst Substances 0.000 description 17
- 229910052726 zirconium Inorganic materials 0.000 description 17
- WPYMKLBDIGXBTP-UHFFFAOYSA-N benzoic acid Chemical compound OC(=O)C1=CC=CC=C1 WPYMKLBDIGXBTP-UHFFFAOYSA-N 0.000 description 16
- 229920000642 polymer Polymers 0.000 description 16
- 238000007711 solidification Methods 0.000 description 15
- 230000008023 solidification Effects 0.000 description 15
- LIKMAJRDDDTEIG-UHFFFAOYSA-N 1-hexene Chemical compound CCCCC=C LIKMAJRDDDTEIG-UHFFFAOYSA-N 0.000 description 14
- 239000001431 2-methylbenzaldehyde Substances 0.000 description 14
- 238000004458 analytical method Methods 0.000 description 14
- 238000000635 electron micrograph Methods 0.000 description 14
- 229910052739 hydrogen Inorganic materials 0.000 description 14
- CDOSHBSSFJOMGT-UHFFFAOYSA-N linalool Chemical compound CC(C)=CCCC(C)(O)C=C CDOSHBSSFJOMGT-UHFFFAOYSA-N 0.000 description 14
- XYFCBTPGUUZFHI-UHFFFAOYSA-N Phosphine Chemical compound P XYFCBTPGUUZFHI-UHFFFAOYSA-N 0.000 description 13
- 239000002253 acid Substances 0.000 description 13
- 238000011084 recovery Methods 0.000 description 13
- 229910052717 sulfur Inorganic materials 0.000 description 13
- YBYIRNPNPLQARY-UHFFFAOYSA-N 1H-indene Natural products C1=CC=C2CC=CC2=C1 YBYIRNPNPLQARY-UHFFFAOYSA-N 0.000 description 12
- UHOVQNZJYSORNB-UHFFFAOYSA-N Benzene Chemical compound C1=CC=CC=C1 UHOVQNZJYSORNB-UHFFFAOYSA-N 0.000 description 12
- GLZPCOQZEFWAFX-UHFFFAOYSA-N Geraniol Chemical compound CC(C)=CCCC(C)=CCO GLZPCOQZEFWAFX-UHFFFAOYSA-N 0.000 description 12
- 125000000623 heterocyclic group Chemical group 0.000 description 12
- 239000012299 nitrogen atmosphere Substances 0.000 description 12
- 239000000126 substance Substances 0.000 description 12
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 11
- OFBQJSOFQDEBGM-UHFFFAOYSA-N Pentane Chemical compound CCCCC OFBQJSOFQDEBGM-UHFFFAOYSA-N 0.000 description 11
- 229910052736 halogen Inorganic materials 0.000 description 11
- 125000005842 heteroatom Chemical group 0.000 description 11
- QJGQUHMNIGDVPM-UHFFFAOYSA-N nitrogen group Chemical group [N] QJGQUHMNIGDVPM-UHFFFAOYSA-N 0.000 description 11
- 239000002244 precipitate Substances 0.000 description 11
- 239000000523 sample Substances 0.000 description 11
- KWKAKUADMBZCLK-UHFFFAOYSA-N 1-octene Chemical compound CCCCCCC=C KWKAKUADMBZCLK-UHFFFAOYSA-N 0.000 description 10
- WAPNOHKVXSQRPX-UHFFFAOYSA-N 1-phenylethanol Chemical compound CC(O)C1=CC=CC=C1 WAPNOHKVXSQRPX-UHFFFAOYSA-N 0.000 description 10
- RTZKZFJDLAIYFH-UHFFFAOYSA-N Diethyl ether Chemical compound CCOCC RTZKZFJDLAIYFH-UHFFFAOYSA-N 0.000 description 10
- OVGORFFCBUIFIA-UHFFFAOYSA-N Fenipentol Chemical compound CCCCC(O)C1=CC=CC=C1 OVGORFFCBUIFIA-UHFFFAOYSA-N 0.000 description 10
- 125000003342 alkenyl group Chemical group 0.000 description 10
- WTEVQBCEXWBHNA-JXMROGBWSA-N geranial Chemical compound CC(C)=CCC\C(C)=C\C=O WTEVQBCEXWBHNA-JXMROGBWSA-N 0.000 description 10
- 150000002367 halogens Chemical class 0.000 description 10
- 150000002391 heterocyclic compounds Chemical class 0.000 description 10
- TVMXDCGIABBOFY-UHFFFAOYSA-N octane Chemical compound CCCCCCCC TVMXDCGIABBOFY-UHFFFAOYSA-N 0.000 description 10
- 125000001997 phenyl group Chemical group [H]C1=C([H])C([H])=C(*)C([H])=C1[H] 0.000 description 10
- 229910052698 phosphorus Inorganic materials 0.000 description 10
- 239000000843 powder Substances 0.000 description 10
- VPGLGRNSAYHXPY-UHFFFAOYSA-L zirconium(2+);dichloride Chemical compound Cl[Zr]Cl VPGLGRNSAYHXPY-UHFFFAOYSA-L 0.000 description 10
- OKKJLVBELUTLKV-UHFFFAOYSA-N Methanol Chemical compound OC OKKJLVBELUTLKV-UHFFFAOYSA-N 0.000 description 9
- NINIDFKCEFEMDL-UHFFFAOYSA-N Sulfur Chemical compound [S] NINIDFKCEFEMDL-UHFFFAOYSA-N 0.000 description 9
- SNRUBQQJIBEYMU-UHFFFAOYSA-N dodecane Chemical compound CCCCCCCCCCCC SNRUBQQJIBEYMU-UHFFFAOYSA-N 0.000 description 9
- 238000001035 drying Methods 0.000 description 9
- 239000011593 sulfur Substances 0.000 description 9
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 9
- CRDAMVZIKSXKFV-FBXUGWQNSA-N (2-cis,6-cis)-farnesol Chemical compound CC(C)=CCC\C(C)=C/CC\C(C)=C/CO CRDAMVZIKSXKFV-FBXUGWQNSA-N 0.000 description 8
- 239000000260 (2E,6E)-3,7,11-trimethyldodeca-2,6,10-trien-1-ol Substances 0.000 description 8
- HNVRRHSXBLFLIG-UHFFFAOYSA-N 3-hydroxy-3-methylbut-1-ene Chemical compound CC(C)(O)C=C HNVRRHSXBLFLIG-UHFFFAOYSA-N 0.000 description 8
- KMTDMTZBNYGUNX-UHFFFAOYSA-N 4-methylbenzyl alcohol Chemical compound CC1=CC=C(CO)C=C1 KMTDMTZBNYGUNX-UHFFFAOYSA-N 0.000 description 8
- 239000005711 Benzoic acid Substances 0.000 description 8
- TWRXJAOTZQYOKJ-UHFFFAOYSA-L Magnesium chloride Chemical compound [Mg+2].[Cl-].[Cl-] TWRXJAOTZQYOKJ-UHFFFAOYSA-L 0.000 description 8
- 235000010233 benzoic acid Nutrition 0.000 description 8
- 229930002886 farnesol Natural products 0.000 description 8
- 229940043259 farnesol Drugs 0.000 description 8
- 125000003983 fluorenyl group Chemical group C1(=CC=CC=2C3=CC=CC=C3CC12)* 0.000 description 8
- 230000008018 melting Effects 0.000 description 8
- 238000002844 melting Methods 0.000 description 8
- 238000011002 quantification Methods 0.000 description 8
- 125000000999 tert-butyl group Chemical group [H]C([H])([H])C(*)(C([H])([H])[H])C([H])([H])[H] 0.000 description 8
- CRDAMVZIKSXKFV-UHFFFAOYSA-N trans-Farnesol Natural products CC(C)=CCCC(C)=CCCC(C)=CCO CRDAMVZIKSXKFV-UHFFFAOYSA-N 0.000 description 8
- MCULRUJILOGHCJ-UHFFFAOYSA-N triisobutylaluminium Chemical compound CC(C)C[Al](CC(C)C)CC(C)C MCULRUJILOGHCJ-UHFFFAOYSA-N 0.000 description 8
- 239000001490 (3R)-3,7-dimethylocta-1,6-dien-3-ol Substances 0.000 description 7
- CDOSHBSSFJOMGT-JTQLQIEISA-N (R)-linalool Natural products CC(C)=CCC[C@@](C)(O)C=C CDOSHBSSFJOMGT-JTQLQIEISA-N 0.000 description 7
- RGSFGYAAUTVSQA-UHFFFAOYSA-N Cyclopentane Chemical compound C1CCCC1 RGSFGYAAUTVSQA-UHFFFAOYSA-N 0.000 description 7
- YMWUJEATGCHHMB-UHFFFAOYSA-N Dichloromethane Chemical compound ClCCl YMWUJEATGCHHMB-UHFFFAOYSA-N 0.000 description 7
- OAICVXFJPJFONN-UHFFFAOYSA-N Phosphorus Chemical compound [P] OAICVXFJPJFONN-UHFFFAOYSA-N 0.000 description 7
- 125000002723 alicyclic group Chemical group 0.000 description 7
- 150000004945 aromatic hydrocarbons Chemical class 0.000 description 7
- 230000007423 decrease Effects 0.000 description 7
- 125000000524 functional group Chemical group 0.000 description 7
- 238000012685 gas phase polymerization Methods 0.000 description 7
- 239000000499 gel Substances 0.000 description 7
- VBJZVLUMGGDVMO-UHFFFAOYSA-N hafnium atom Chemical compound [Hf] VBJZVLUMGGDVMO-UHFFFAOYSA-N 0.000 description 7
- 239000001257 hydrogen Substances 0.000 description 7
- 125000001449 isopropyl group Chemical group [H]C([H])([H])C([H])(*)C([H])([H])[H] 0.000 description 7
- 239000003446 ligand Substances 0.000 description 7
- 229930007744 linalool Natural products 0.000 description 7
- 229910000073 phosphorus hydride Inorganic materials 0.000 description 7
- 230000009257 reactivity Effects 0.000 description 7
- XPNGNIFUDRPBFJ-UHFFFAOYSA-N (2-methylphenyl)methanol Chemical compound CC1=CC=CC=C1CO XPNGNIFUDRPBFJ-UHFFFAOYSA-N 0.000 description 6
- 239000001707 (E,7R,11R)-3,7,11,15-tetramethylhexadec-2-en-1-ol Substances 0.000 description 6
- AFFLGGQVNFXPEV-UHFFFAOYSA-N 1-decene Chemical compound CCCCCCCCC=C AFFLGGQVNFXPEV-UHFFFAOYSA-N 0.000 description 6
- DJNJZIFFCJTUDS-UHFFFAOYSA-N 1-phenyldodecan-1-one Chemical compound CCCCCCCCCCCC(=O)C1=CC=CC=C1 DJNJZIFFCJTUDS-UHFFFAOYSA-N 0.000 description 6
- OIGWAXDAPKFNCQ-UHFFFAOYSA-N 4-isopropylbenzyl alcohol Chemical compound CC(C)C1=CC=C(CO)C=C1 OIGWAXDAPKFNCQ-UHFFFAOYSA-N 0.000 description 6
- WSSSPWUEQFSQQG-UHFFFAOYSA-N 4-methyl-1-pentene Chemical compound CC(C)CC=C WSSSPWUEQFSQQG-UHFFFAOYSA-N 0.000 description 6
- QTBSBXVTEAMEQO-UHFFFAOYSA-N Acetic acid Chemical compound CC(O)=O QTBSBXVTEAMEQO-UHFFFAOYSA-N 0.000 description 6
- NLXLAEXVIDQMFP-UHFFFAOYSA-N Ammonia chloride Chemical compound [NH4+].[Cl-] NLXLAEXVIDQMFP-UHFFFAOYSA-N 0.000 description 6
- ZOXJGFHDIHLPTG-UHFFFAOYSA-N Boron Chemical compound [B] ZOXJGFHDIHLPTG-UHFFFAOYSA-N 0.000 description 6
- WTEVQBCEXWBHNA-UHFFFAOYSA-N Citral Natural products CC(C)=CCCC(C)=CC=O WTEVQBCEXWBHNA-UHFFFAOYSA-N 0.000 description 6
- VZCYOOQTPOCHFL-OWOJBTEDSA-N Fumaric acid Chemical compound OC(=O)\C=C\C(O)=O VZCYOOQTPOCHFL-OWOJBTEDSA-N 0.000 description 6
- 239000005792 Geraniol Substances 0.000 description 6
- GLZPCOQZEFWAFX-YFHOEESVSA-N Geraniol Natural products CC(C)=CCC\C(C)=C/CO GLZPCOQZEFWAFX-YFHOEESVSA-N 0.000 description 6
- CSNNHWWHGAXBCP-UHFFFAOYSA-L Magnesium sulfate Chemical compound [Mg+2].[O-][S+2]([O-])([O-])[O-] CSNNHWWHGAXBCP-UHFFFAOYSA-L 0.000 description 6
- BLUHKGOSFDHHGX-UHFFFAOYSA-N Phytol Natural products CC(C)CCCC(C)CCCC(C)CCCC(C)C=CO BLUHKGOSFDHHGX-UHFFFAOYSA-N 0.000 description 6
- RWRDLPDLKQPQOW-UHFFFAOYSA-N Pyrrolidine Chemical compound C1CCNC1 RWRDLPDLKQPQOW-UHFFFAOYSA-N 0.000 description 6
- HNZBNQYXWOLKBA-UHFFFAOYSA-N Tetrahydrofarnesol Natural products CC(C)CCCC(C)CCCC(C)=CCO HNZBNQYXWOLKBA-UHFFFAOYSA-N 0.000 description 6
- ATJFFYVFTNAWJD-UHFFFAOYSA-N Tin Chemical compound [Sn] ATJFFYVFTNAWJD-UHFFFAOYSA-N 0.000 description 6
- RTAQQCXQSZGOHL-UHFFFAOYSA-N Titanium Chemical compound [Ti] RTAQQCXQSZGOHL-UHFFFAOYSA-N 0.000 description 6
- XSQUKJJJFZCRTK-UHFFFAOYSA-N Urea Chemical compound NC(N)=O XSQUKJJJFZCRTK-UHFFFAOYSA-N 0.000 description 6
- BOTWFXYSPFMFNR-OALUTQOASA-N all-rac-phytol Natural products CC(C)CCC[C@H](C)CCC[C@H](C)CCCC(C)=CCO BOTWFXYSPFMFNR-OALUTQOASA-N 0.000 description 6
- PNEYBMLMFCGWSK-UHFFFAOYSA-N aluminium oxide Inorganic materials [O-2].[O-2].[O-2].[Al+3].[Al+3] PNEYBMLMFCGWSK-UHFFFAOYSA-N 0.000 description 6
- 150000001408 amides Chemical class 0.000 description 6
- 235000019445 benzyl alcohol Nutrition 0.000 description 6
- 229960004217 benzyl alcohol Drugs 0.000 description 6
- 229910052796 boron Inorganic materials 0.000 description 6
- 229910052799 carbon Inorganic materials 0.000 description 6
- 239000000969 carrier Substances 0.000 description 6
- 230000003197 catalytic effect Effects 0.000 description 6
- 230000008859 change Effects 0.000 description 6
- 125000001495 ethyl group Chemical group [H]C([H])([H])C([H])([H])* 0.000 description 6
- 238000011156 evaluation Methods 0.000 description 6
- 229940113087 geraniol Drugs 0.000 description 6
- 150000008282 halocarbons Chemical group 0.000 description 6
- GDOPTJXRTPNYNR-UHFFFAOYSA-N methylcyclopentane Chemical compound CC1CCCC1 GDOPTJXRTPNYNR-UHFFFAOYSA-N 0.000 description 6
- 125000004433 nitrogen atom Chemical group N* 0.000 description 6
- 239000012044 organic layer Substances 0.000 description 6
- 239000003960 organic solvent Substances 0.000 description 6
- 239000011574 phosphorus Substances 0.000 description 6
- BOTWFXYSPFMFNR-PYDDKJGSSA-N phytol Chemical compound CC(C)CCC[C@@H](C)CCC[C@@H](C)CCC\C(C)=C\CO BOTWFXYSPFMFNR-PYDDKJGSSA-N 0.000 description 6
- 125000001436 propyl group Chemical group [H]C([*])([H])C([H])([H])C([H])([H])[H] 0.000 description 6
- 125000002914 sec-butyl group Chemical group [H]C([H])([H])C([H])([H])C([H])(*)C([H])([H])[H] 0.000 description 6
- 239000000725 suspension Substances 0.000 description 6
- CXWXQJXEFPUFDZ-UHFFFAOYSA-N tetralin Chemical compound C1=CC=C2CCCCC2=C1 CXWXQJXEFPUFDZ-UHFFFAOYSA-N 0.000 description 6
- 229910052719 titanium Inorganic materials 0.000 description 6
- UDEVCZRUNOLVLU-UHFFFAOYSA-N 1-phenyloctan-1-one Chemical compound CCCCCCCC(=O)C1=CC=CC=C1 UDEVCZRUNOLVLU-UHFFFAOYSA-N 0.000 description 5
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 description 5
- ABLZXFCXXLZCGV-UHFFFAOYSA-N Phosphorous acid Chemical compound OP(O)=O ABLZXFCXXLZCGV-UHFFFAOYSA-N 0.000 description 5
- 150000001338 aliphatic hydrocarbons Chemical class 0.000 description 5
- 238000009835 boiling Methods 0.000 description 5
- 125000002915 carbonyl group Chemical group [*:2]C([*:1])=O 0.000 description 5
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- MGNVWUDMMXZUDI-UHFFFAOYSA-N propane-1,3-disulfonic acid Chemical compound OS(=O)(=O)CCCS(O)(=O)=O MGNVWUDMMXZUDI-UHFFFAOYSA-N 0.000 description 1
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- IUVKMZGDUIUOCP-BTNSXGMBSA-N quinbolone Chemical compound O([C@H]1CC[C@H]2[C@H]3[C@@H]([C@]4(C=CC(=O)C=C4CC3)C)CC[C@@]21C)C1=CCCC1 IUVKMZGDUIUOCP-BTNSXGMBSA-N 0.000 description 1
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- 125000003548 sec-pentyl group Chemical group [H]C([H])([H])C([H])([H])C([H])([H])C([H])(*)C([H])([H])[H] 0.000 description 1
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- 239000012265 solid product Substances 0.000 description 1
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- 230000003068 static effect Effects 0.000 description 1
- 239000008117 stearic acid Substances 0.000 description 1
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- 125000003107 substituted aryl group Chemical group 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 229960002317 succinimide Drugs 0.000 description 1
- OKQKDCXVLPGWPO-UHFFFAOYSA-N sulfanylidenephosphane Chemical compound S=P OKQKDCXVLPGWPO-UHFFFAOYSA-N 0.000 description 1
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- 150000003462 sulfoxides Chemical class 0.000 description 1
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- 235000002906 tartaric acid Nutrition 0.000 description 1
- FAGLEPBREOXSAC-UHFFFAOYSA-N tert-butyl isocyanide Chemical compound CC(C)(C)[N+]#[C-] FAGLEPBREOXSAC-UHFFFAOYSA-N 0.000 description 1
- ILMRJRBKQSSXGY-UHFFFAOYSA-N tert-butyl(dimethyl)silicon Chemical group C[Si](C)C(C)(C)C ILMRJRBKQSSXGY-UHFFFAOYSA-N 0.000 description 1
- MDDUHVRJJAFRAU-YZNNVMRBSA-N tert-butyl-[(1r,3s,5z)-3-[tert-butyl(dimethyl)silyl]oxy-5-(2-diphenylphosphorylethylidene)-4-methylidenecyclohexyl]oxy-dimethylsilane Chemical compound C1[C@@H](O[Si](C)(C)C(C)(C)C)C[C@H](O[Si](C)(C)C(C)(C)C)C(=C)\C1=C/CP(=O)(C=1C=CC=CC=1)C1=CC=CC=C1 MDDUHVRJJAFRAU-YZNNVMRBSA-N 0.000 description 1
- GEKDEMKPCKTKEC-UHFFFAOYSA-N tetradecane-1-thiol Chemical compound CCCCCCCCCCCCCCS GEKDEMKPCKTKEC-UHFFFAOYSA-N 0.000 description 1
- 125000005063 tetradecenyl group Chemical group C(=CCCCCCCCCCCCC)* 0.000 description 1
- 125000001544 thienyl group Chemical group 0.000 description 1
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- 150000003613 toluenes Chemical class 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
- 230000007704 transition Effects 0.000 description 1
- NDUUEFPGQBSFPV-UHFFFAOYSA-N tri(butan-2-yl)alumane Chemical compound CCC(C)[Al](C(C)CC)C(C)CC NDUUEFPGQBSFPV-UHFFFAOYSA-N 0.000 description 1
- URNNTTSIHDDFIB-UHFFFAOYSA-N tri(cyclooctyl)alumane Chemical compound C1CCCCCCC1[Al](C1CCCCCCC1)C1CCCCCCC1 URNNTTSIHDDFIB-UHFFFAOYSA-N 0.000 description 1
- 125000004665 trialkylsilyl group Chemical group 0.000 description 1
- 150000003852 triazoles Chemical class 0.000 description 1
- XTTGYFREQJCEML-UHFFFAOYSA-N tributyl phosphite Chemical compound CCCCOP(OCCCC)OCCCC XTTGYFREQJCEML-UHFFFAOYSA-N 0.000 description 1
- SQBBHCOIQXKPHL-UHFFFAOYSA-N tributylalumane Chemical compound CCCC[Al](CCCC)CCCC SQBBHCOIQXKPHL-UHFFFAOYSA-N 0.000 description 1
- ZIYNWDQDHKSRCE-UHFFFAOYSA-N tricyclohexylalumane Chemical compound C1CCCCC1[Al](C1CCCCC1)C1CCCCC1 ZIYNWDQDHKSRCE-UHFFFAOYSA-N 0.000 description 1
- WLPUWLXVBWGYMZ-UHFFFAOYSA-N tricyclohexylphosphine Chemical compound C1CCCCC1P(C1CCCCC1)C1CCCCC1 WLPUWLXVBWGYMZ-UHFFFAOYSA-N 0.000 description 1
- IPBROXKVGHZHJV-UHFFFAOYSA-N tridecane-1-thiol Chemical compound CCCCCCCCCCCCCS IPBROXKVGHZHJV-UHFFFAOYSA-N 0.000 description 1
- YGRHYJIWZFEDBT-UHFFFAOYSA-N tridecylaluminum Chemical compound CCCCCCCCCCCCC[Al] YGRHYJIWZFEDBT-UHFFFAOYSA-N 0.000 description 1
- VOITXYVAKOUIBA-UHFFFAOYSA-N triethylaluminium Chemical compound CC[Al](CC)CC VOITXYVAKOUIBA-UHFFFAOYSA-N 0.000 description 1
- XPDWGBQVDMORPB-UHFFFAOYSA-N trifluoromethane acid Natural products FC(F)F XPDWGBQVDMORPB-UHFFFAOYSA-N 0.000 description 1
- ORYGRKHDLWYTKX-UHFFFAOYSA-N trihexylalumane Chemical compound CCCCCC[Al](CCCCCC)CCCCCC ORYGRKHDLWYTKX-UHFFFAOYSA-N 0.000 description 1
- 125000000025 triisopropylsilyl group Chemical group C(C)(C)[Si](C(C)C)(C(C)C)* 0.000 description 1
- LFXVBWRMVZPLFK-UHFFFAOYSA-N trioctylalumane Chemical compound CCCCCCCC[Al](CCCCCCCC)CCCCCCCC LFXVBWRMVZPLFK-UHFFFAOYSA-N 0.000 description 1
- JOJQVUCWSDRWJE-UHFFFAOYSA-N tripentylalumane Chemical compound CCCCC[Al](CCCCC)CCCCC JOJQVUCWSDRWJE-UHFFFAOYSA-N 0.000 description 1
- JQPMDTQDAXRDGS-UHFFFAOYSA-N triphenylalumane Chemical compound C1=CC=CC=C1[Al](C=1C=CC=CC=1)C1=CC=CC=C1 JQPMDTQDAXRDGS-UHFFFAOYSA-N 0.000 description 1
- CNWZYDSEVLFSMS-UHFFFAOYSA-N tripropylalumane Chemical compound CCC[Al](CCC)CCC CNWZYDSEVLFSMS-UHFFFAOYSA-N 0.000 description 1
- IIOSDXGZLBPOHD-UHFFFAOYSA-N tris(2-methoxyphenyl)phosphane Chemical compound COC1=CC=CC=C1P(C=1C(=CC=CC=1)OC)C1=CC=CC=C1OC IIOSDXGZLBPOHD-UHFFFAOYSA-N 0.000 description 1
- FXDRTQPEGDSVEA-UHFFFAOYSA-N tris(2-methylbutyl)alumane Chemical compound CCC(C)C[Al](CC(C)CC)CC(C)CC FXDRTQPEGDSVEA-UHFFFAOYSA-N 0.000 description 1
- PPJMJDLVYZBVEP-UHFFFAOYSA-N tris(2-methylhexyl)alumane Chemical compound CCCCC(C)C[Al](CC(C)CCCC)CC(C)CCCC PPJMJDLVYZBVEP-UHFFFAOYSA-N 0.000 description 1
- WCWWRDANFBTPCH-UHFFFAOYSA-N tris(2-methylpentyl)alumane Chemical compound CCCC(C)C[Al](CC(C)CCC)CC(C)CCC WCWWRDANFBTPCH-UHFFFAOYSA-N 0.000 description 1
- DPTWZQCTMLQIJK-UHFFFAOYSA-N tris(3-methylbutyl)alumane Chemical compound CC(C)CC[Al](CCC(C)C)CCC(C)C DPTWZQCTMLQIJK-UHFFFAOYSA-N 0.000 description 1
- KBDPCSBGWWKZNI-UHFFFAOYSA-N tris(3-methylpentyl)alumane Chemical compound CCC(C)CC[Al](CCC(C)CC)CCC(C)CC KBDPCSBGWWKZNI-UHFFFAOYSA-N 0.000 description 1
- MLDSMTVYPPIXMZ-UHFFFAOYSA-N tris(4-methylpentyl)alumane Chemical compound CC(C)CCC[Al](CCCC(C)C)CCCC(C)C MLDSMTVYPPIXMZ-UHFFFAOYSA-N 0.000 description 1
- RTAKQLTYPVIOBZ-UHFFFAOYSA-N tritert-butylalumane Chemical compound CC(C)(C)[Al](C(C)(C)C)C(C)(C)C RTAKQLTYPVIOBZ-UHFFFAOYSA-N 0.000 description 1
- BWHDROKFUHTORW-UHFFFAOYSA-N tritert-butylphosphane Chemical compound CC(C)(C)P(C(C)(C)C)C(C)(C)C BWHDROKFUHTORW-UHFFFAOYSA-N 0.000 description 1
- CCIDWXHLGNEQSL-UHFFFAOYSA-N undecane-1-thiol Chemical compound CCCCCCCCCCCS CCIDWXHLGNEQSL-UHFFFAOYSA-N 0.000 description 1
- KJIOQYGWTQBHNH-UHFFFAOYSA-N undecanol Chemical compound CCCCCCCCCCCO KJIOQYGWTQBHNH-UHFFFAOYSA-N 0.000 description 1
- 125000002948 undecyl group Chemical group [H]C([*])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])C([H])([H])[H] 0.000 description 1
- 229940005605 valeric acid Drugs 0.000 description 1
- 125000000391 vinyl group Chemical group [H]C([*])=C([H])[H] 0.000 description 1
- 229920002554 vinyl polymer Polymers 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
- VWQVUPCCIRVNHF-UHFFFAOYSA-N yttrium atom Chemical compound [Y] VWQVUPCCIRVNHF-UHFFFAOYSA-N 0.000 description 1
- 150000003755 zirconium compounds Chemical class 0.000 description 1
- DUNKXUFBGCUVQW-UHFFFAOYSA-J zirconium tetrachloride Chemical compound Cl[Zr](Cl)(Cl)Cl DUNKXUFBGCUVQW-UHFFFAOYSA-J 0.000 description 1
- GBNDTYKAOXLLID-UHFFFAOYSA-N zirconium(4+) ion Chemical compound [Zr+4] GBNDTYKAOXLLID-UHFFFAOYSA-N 0.000 description 1
Images
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- C08F4/60—Metals; Metal hydrides; Metallo-organic compounds; Use thereof as catalyst precursors selected from light metals, zinc, cadmium, mercury, copper, silver, gold, boron, gallium, indium, thallium, rare earths or actinides together with refractory metals, iron group metals, platinum group metals, manganese, rhenium technetium or compounds thereof
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- C08F4/659—Component covered by group C08F4/64 containing a transition metal-carbon bond
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- C08F4/60—Metals; Metal hydrides; Metallo-organic compounds; Use thereof as catalyst precursors selected from light metals, zinc, cadmium, mercury, copper, silver, gold, boron, gallium, indium, thallium, rare earths or actinides together with refractory metals, iron group metals, platinum group metals, manganese, rhenium technetium or compounds thereof
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- C08F4/6428—Component covered by group C08F4/64 with an organo-aluminium compound with an aluminoxane, i.e. a compound containing an Al-O-Al- group
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- C08G79/00—Macromolecular compounds obtained by reactions forming a linkage containing atoms other than silicon, sulfur, nitrogen, oxygen, and carbon with or without the latter elements in the main chain of the macromolecule
- C08G79/10—Macromolecular compounds obtained by reactions forming a linkage containing atoms other than silicon, sulfur, nitrogen, oxygen, and carbon with or without the latter elements in the main chain of the macromolecule a linkage containing aluminium
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Definitions
- the present invention relates to a solid polyaluminoxane composition used for a multimerization reaction or polymerization reaction of olefins, an olefin polymerization catalyst comprising the composition, and a method for producing an olefin polymer obtained in the presence of the catalyst .
- the present invention also relates to a method for producing a solid polyaluminoxane composition and a solid polyaluminoxane composition obtained by the method.
- a polyaluminoxane composition which is a partial hydrolyzate of alkylaluminum acts as a cocatalyst for activating a transition metal complex which is a main catalyst in the production of an olefin polymer or an olefin polymer.
- polymethylaluminoxane compositions starting from trimethylaluminum are widely known to exhibit excellent cocatalyst performance (Patent Document 1).
- the polymethylaluminoxane composition has an aluminum-oxygen-carbon bond formed by the partial hydrolysis reaction of trimethylaluminum (patent documents 2 and 3) or the reaction of trimethylaluminum and an oxygen-containing organic compound such as a carboxylic acid. It is manufactured by the thermal decomposition reaction (the patent documents 4, 5) of the alkyl aluminum compound, and is marketed as a polymethylaluminoxane composition of the solution state which melt
- the morphology of the formed olefin polymer can not be controlled, and the polymerization reactor There is a problem in stable productivity because fouling easily occurs due to the adhesion of an olefin polymer to an epoxy resin, etc.
- a production method using a supported cocatalyst in which a polymethylaluminoxane composition is supported on a solid inorganic support such as silica, alumina, silica-alumina, or magnesium chloride are disclosed (Patent Documents 6 to 9).
- a solid inorganic carrier is that the carrier particle size can be selected.
- a carrier particle size suitable for each process of liquid phase polymerization such as slurry polymerization or a gas phase polymerization apparatus is selected.
- the supported cocatalyst in which the polymethylaluminoxane composition is supported on these solid inorganic carriers has a large decrease in activity as compared with the case where the polymethylaluminoxane composition is used alone as a cocatalyst, which is economical. Unfavorable from the viewpoint of Furthermore, these solid inorganic carriers tend to remain as foreign substances in the polymer to be produced, resulting in deterioration of the physical properties of the polymer.
- a method of producing a solid polyaluminoxane composition by contacting an insoluble or hardly soluble solvent with a polyaluminoxane composition in a solution state dissolved in an aromatic hydrocarbon solvent such as toluene as a production method thereof (Patent Document 10, 11)
- a method of obtaining a solid slurry by adding a salt to polymethylaluminoxane (Patent Document 12), preparing an insoluble to hardly soluble solvent-soluble polymethylaluminoxane, then adding an organic boroxine to the soluble polymethylaluminoxane
- a method of causing an oxygen-containing compound to react with a slurry liquid containing a solid precipitated after contact with an insoluble or hardly soluble solvent (Patent Document 13), a content of trimethylaluminum is Method for heating
- the emphasis is placed on the superiority over the disadvantages of using a solid inorganic carrier, and the merits of using a solid inorganic carrier can hardly be omitted.
- the hydroxyl groups on the silica surface react with polymethylaluminoxane to form a covalent bond between aluminum and oxygen, whereby the elution of the polyaluminoxane component into the solvent is suppressed.
- solid polyaluminoxane composition as a cocatalyst support to liquid phase polymerization such as olefin slurry polymerization or gas phase polymerization process, it is necessary to minimize leaching from the viewpoint of fouling suppression. .
- a highly polar substance such as an antistatic agent having in the molecule a highly polar functional group such as an ionic functional group or a polyether functional group generally added to the polymerization (multimerization) reaction step.
- a highly polar substance such as an antistatic agent having in the molecule a highly polar functional group such as an ionic functional group or a polyether functional group generally added to the polymerization (multimerization) reaction step.
- a highly polar substance such as an antistatic agent having in the molecule a highly polar functional group such as an ionic functional group or a polyether functional group generally added to the polymerization (multimerization) reaction step.
- Patent Document 11 describes that the solubility of the solid polymethylaluminoxane composition described in the examples in n-hexane is 1.0 mol% or more. Further, in Patent Document 15, in the solid polymethylaluminoxane composition described in the Examples, 1 H-NMR measurement is possible in tetrahydrofuran-d 8 which is a compound with high polarity, and it is relative to the total number of moles of methyl groups. It is described that the mole fraction of methyl groups derived from trimethylaluminum moieties is 12 mol% or less. That, tetrahydrofuran -d 8 dissolved portion of the solid polymethylaluminoxane composition, high polymethylaluminoxane of content, it is described a low content of trimethylaluminum.
- Patent Document 15 discloses a method for producing a solid polymethylaluminoxane composition with improved particle size uniformity.
- the method of controlling the particle size of the solid polymethylaluminoxane composition in order to obtain a solid polymethylaluminoxane composition with a high recovery rate relative to the polymethylaluminoxane composition used as a raw material, it is necessary to use a polymethylaluminoxane composition in a special solution state as a raw material Although the raw material has a low content of trimethylaluminum, the raw material itself has a problem in storage stability (Patent Document 8).
- Patent Document 8 In addition, in order to produce the above-mentioned special solution-like polymethylaluminoxane composition, dangerous high concentration of trimethylaluminum must be used as a raw material. There was a problem with the big restriction.
- Patent Document 15 uses a solution-like polymethylaluminoxane composition prepared by the reaction of trimethylaluminum and an oxygen-containing organic compound, a solid solution having any different particle size can be obtained from one solution-like polyaluminoxane composition. -Shaped polyaluminoxane could not be made separately.
- a solid polyaluminoxane composition in order to apply the solid polyaluminoxane composition to liquid phase polymerization such as slurry polymerization or a gas phase polymerization process, particularly to each existing manufacturing process, a solid polyaluminoxane having a carrier particle size optimum for each manufacturing process It is desirable to use the composition.
- the problem to be solved by the present invention is a solid polyaluminoxane composition suitable as a cocatalyst and a catalyst support for producing an olefin polymer or an olefin polymer without using a solid inorganic support such as silica.
- a solid polyaluminoxane composition in which the particle size is relatively uniformly controlled, which can be applied to liquid phase polymerization such as existing olefin slurry polymerization and gas phase polymerization processes.
- aluminoxane composition that is, a solid polyaluminoxane composition in which the solubility in a solvent is minimized.
- Another object is to provide a catalyst for olefin polymerization (multimerization) using the solid polyaluminoxane composition and the transition metal compound, and to provide a method for producing an olefin polymer obtained in the presence of the catalyst. one of.
- Another object is to provide a method for producing a solid polyaluminoxane composition with a high recovery rate and a uniform particle size.
- the present invention provides a method for producing a solid polyaluminoxane composition which can use a commercially available solution-like polyaluminoxane composition as a raw material, which does not require a special solution-like polyaluminoxane composition as a raw material It is.
- the present inventors set the leaching in the olefin polymerization (multimerization) catalyst preparation process by minimizing the solubility of the solid polyaluminoxane composition in the solvent. They found that they could be suppressed and completed the present invention.
- solution-like polyaluminoxane composition (A) is brought into contact with a particular solution-like polyaluminoxane composition (A) and a particular organic compound (B), which will be described later, under heating conditions.
- a polyaluminoxane composition using, as a raw material, a solid polyaluminoxane composition having high particle size uniformity and controlled to any particle size by reacting a compound having a bond with the organic compound (B) It has been found that it can be deposited with high recovery rate.
- the solid polyaluminoxane composition of the present invention comprises a polyalkylaluminoxane and a trialkylaluminum,
- the solubility in n-hexane at 25 ° C. measured by the following method (i) is less than 0.50 mol%,
- the molar fraction of the alkyl group derived from the trialkylaluminum moiety is 13 mol% or more with respect to the total number of moles of the alkyl group derived from the moiety and the alkyl group derived from the trialkylaluminum moiety.
- the solid polyaluminoxane composition of the present invention preferably has a solubility in tetrahydrofuran at 25 ° C. of 95 mol% or less, which is measured by the following method (iv).
- the olefin polymerization catalyst of the present invention comprises the solid polyaluminoxane composition of the present invention and (H) a transition metal selected from Groups 3 to 10 of the periodic table, represented by the following general formula (8) It is obtained by contacting a transition metal compound having an atom.
- R 31 R 32 R 33 R 34 M (Wherein, M represents a transition metal atom selected from Group 3 to Group 10 of the periodic table, and R 31 , R 32 , R 33 and R 34 may be the same as or different from each other, and cyclopentadi A group having an enyl skeleton, alkyl, cycloalkyl, aryl, aralkyl, alkoxy, aryloxy, a halogen atom, alkylsilyl, alkylamido, alkylimide, alkyl imide, -SO 3 R or a hydrogen atom is shown.
- the process for producing an olefin polymer of the present invention comprises an ⁇ -olefin having 2 to 20 carbon atoms, a cyclic olefin having 3 to 20 carbon atoms, and 4 carbon atoms in the presence of the olefin polymerization catalyst of the present invention. And 20) polymerizing one or more olefins selected from a die
- the process for producing the solid polyaluminoxane composition of the present invention comprises: (A) a solution-like polyaluminoxane composition containing a polyalkylaluminoxane, a trialkylaluminum and a hydrocarbon solvent; and (B) a periodic table group 15 to 17 Contacting at least one organic compound containing an element; The step of reacting a compound having an aluminum-carbon bond contained in the solution-like polyaluminoxane composition (A) with the organic compound (B) under heating conditions to precipitate a solid polyaluminoxane composition Including.
- the said manufacturing method includes the process further heat-aged after the said process to precipitate.
- a solid polyaluminoxane having a very low solubility in a solvent which is suitable as a cocatalyst and a catalyst support for a catalyst for producing an olefin polymer or an olefin polymer without using a solid inorganic support such as silica.
- a composition can be provided.
- the solid polyaluminoxane composition of the present invention comprises the cocatalyst component, the main catalyst component, or the reaction composition of the main catalyst component and the cocatalyst component in the olefin polymerization (multimerization) reaction step and / or the catalyst preparation step thereof. Reaching can be suppressed as much as possible.
- the solid polyaluminoxane composition of the present invention when used as a cocatalyst, it exhibits extremely high polymerization activity as compared with the case of using a supported cocatalyst having a polymethylaluminoxane composition supported on a silica carrier.
- the solid polyaluminoxane composition of the present invention has a relatively uniform particle size, and is suitable for liquid phase polymerization such as existing olefin slurry polymerization and gas phase polymerization processes.
- a solid polyaluminoxane composition having high uniformity of particle diameter and controlled to any particle diameter can be produced with an extremely high recovery rate.
- a solid polyaluminoxane composition can be obtained by suitably using a commercially available solution-like polyaluminoxane composition as a raw material.
- FIG. 1 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example A1 (Test Example D1).
- FIG. 2 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example A7 (Test Example D14).
- FIG. 3 is an electron micrograph (200 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example D9.
- FIG. 4: is a particle size distribution evaluation result by Microtrac MT3300EX II of the solid polyaluminoxane composition after drying obtained by Experiment D9.
- FIG. 5 is an electron micrograph (200 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example D31.
- FIG. 1 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example A1 (Test Example D1).
- FIG. 2 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition
- FIG. 6 shows the results of evaluation of particle size distribution of the dried solid polyaluminoxane composition obtained in Test Example D31 using Microtrac MT 3300 EX II.
- FIG. 7 is an electron micrograph (200 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example D33.
- FIG. 8 shows the results of evaluation of particle size distribution of the dried solid polyaluminoxane composition obtained in Test Example D33 using Microtrac MT 3300 EX II.
- FIG. 9 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example a1.
- FIG. 10 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example a2.
- FIG. 11 is an electron micrograph (1000 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example a3.
- FIG. 12 is an electron micrograph (200 ⁇ ) of the dried solid polyaluminoxane composition obtained in Test Example a5 (Test Example d4).
- FIG. 13 shows the result of evaluation of particle size distribution of the dried solid polyaluminoxane composition obtained in Test Example a5 (Test Example d4) using Microtrac MT3300EX II.
- FIG. 14 is an electron micrograph (1000 ⁇ ) of the dried olefin polymerization catalyst obtained in Test Example B1.
- FIG. 15 is an electron micrograph (1000 ⁇ ) of the dried olefin polymerization catalyst obtained in Test Example B5.
- FIG. 16 is an electron micrograph (1000 ⁇ ) of the dried particles obtained in Test Example b1.
- FIG. 17 is an electron micrograph ( ⁇ 1000) of the dried particles obtained in Test Example b2.
- FIG. 18 is an electron micrograph (1000 ⁇ ) of the dried particles obtained in Test Example b3.
- Solid polyaluminoxane composition contains a polyalkylaluminoxane and a trialkylaluminum, and is preferably the following general compounds because of excellent cocatalyst performance with respect to a catalyst for producing an olefin polymer or an olefin polymer:
- a polyalkylaluminoxane containing a constitutional unit represented by the formula (1) also referred to as “a polyaluminoxane containing a constitutional unit represented by the following general formula (1)” in the present invention
- trimethylaluminum are more preferable.
- a solid polyaluminoxane composition containing polymethylaluminoxane and trimethylaluminum is also referred to as "solid polymethylaluminoxane composition”.
- Me represents a methyl group.
- the polyalkylaluminoxane usually contains a unit represented by the general formula (1) and / or the general formula (2).
- the structure of the polyalkylaluminoxane is not necessarily clarified, and usually, it is presumed that the unit represented by the general formula (1) and / or the following general formula (2) includes a structure repeating about 2 to 50. However, as long as the effects of the present invention can be obtained, the present invention is not limited to this configuration.
- the linkage of the units is, for example, linear, cyclic or cluster-like, and polyalkylaluminoxane is usually assumed to be composed of one of them or a mixture thereof. ing.
- the polyalkylaluminoxane may consist only of units represented by the general formula (1) or the general formula (2).
- R 1 generally represents a hydrocarbon group having 2 to 20 carbon atoms, preferably a hydrocarbon group having 2 to 15 carbon atoms, and more preferably 2 to 10 carbon atoms.
- Indicates a hydrocarbon group of Specific examples of the hydrocarbon group include ethyl, propyl, n-butyl, pentyl, hexyl, octyl, decyl, isopropyl, isobutyl, sec-butyl, tert-butyl, 2-methylbutyl, 3-methylbutyl, 2-methylpentyl, 3-methylpentyl, 4-methylpentyl, 2-methylhexyl, 3-methylhexyl, 2-ethylhexyl, cyclohexyl, cyclooctyl, phenyl, tolyl and the like.
- trialkylaluminum examples include trimethylaluminum having a methyl group, trialkylaluminum having a hydrocarbon group having 2 to 20 carbon atoms, and triarylaluminum.
- trialkylaluminum examples include tri (n-alkyl) aluminum such as triethylaluminum, tri (n-butyl) aluminum, tripropylaluminum, tripentylaluminum, trihexylaluminum, trioctylaluminum, tridecylaluminum and the like; Triisopropylaluminum, triisobutylaluminum, tri (sec-butyl) aluminum, tri (tert-butyl) aluminum, tri (2-methylbutyl) aluminum, tri (3-methylbutyl) aluminum, tri (2-methylpentyl) aluminum, tri (3-Methylpentyl) aluminum, tri (4-methylpentyl) aluminum, tri (2-methylhexyl) aluminum, tri (3-methylhexyl) acid Miniumu, tri (2-ethylhexyl) tri branched-chain alkyl aluminum such as aluminum; tricyclohexyl aluminum, tri cycloalkyl aluminum such as tri branche
- triarylaluminum examples include triphenylaluminum and tritolylaluminum. Preferably, it is trimethylaluminum.
- the polyalkylaluminoxane contained in the solid polyaluminoxane composition of the present invention may contain the structural unit represented by the general formula (1) and / or the general formula (2).
- a polyalkyl containing a structural unit represented by the general formula (1) as in (a) and (d) Aluminoxane is preferable, and in view of raw material procurement, polymethylaluminoxane consisting only of the structural unit represented by the general formula (1) shown in (a) is more preferable.
- trialkylaluminum contained in the solid polyaluminoxane composition of the present invention regardless of the type of polyalkylaluminoxane, trialkylaluminum having any alkyl group can be used.
- trimethylaluminum is preferably used from the viewpoint of the activity as a cocatalyst and the raw material supply.
- the solid polyaluminoxane composition of the present invention satisfies the following requirements (i) to (iii), and preferably satisfies the following requirements (i) to (iv).
- the mole fraction of the alkyl group derived from the trialkylaluminum moiety relative to (hereinafter, also referred to as “mole fraction (1)”) is 13 mole% or more.
- the solubility is determined by the same method as the method (i) except that toluene is used instead of n-hexane. Specifically, 2 g of a solid polyaluminoxane composition is added to 50 mL of toluene kept at 25 ° C., and then the solution is stirred for 2 hours, and then separated into a filtrate and a residue by filtration, The concentration of aluminum in the filtrate was determined using ICP emission spectroscopy (ICP-AES), as the ratio of aluminum atoms present in the filtrate to the amount of aluminum atoms corresponding to 2 g of solid polyaluminoxane composition Ask.
- ICP-AES ICP emission spectroscopy
- the measurement is carried out by the method (iii) To a trialkylaluminum moiety containing trimethylaluminum relative to the total number of alkyl groups derived from the polyalkylaluminoxane moiety and a trialkylaluminum moiety containing trimethylaluminum in the tetrahydrofuran-d 8 soluble portion
- the mole fraction of the alkyl group derived therefrom (hereinafter also referred to as “mole fraction (2)”) is 13 mole% or more.
- the alkyl group also includes the number of moles derived from the methyl group.
- the polyalkylaluminoxane contained in the composition is polymethylaluminoxane and the trialkylaluminum is trimethylaluminum
- the polymethylaluminoxane moiety in the tetrahydrofuran-d 8 soluble portion measured by the method (iii) is 13 moles relative to the total number of moles of methyl group derived from and trimethylaluminum moiety derived from % Or more.
- composition containing a polyalkylaluminoxane containing a constitutional unit represented by the general formula (1) and trimethylaluminum or a composition containing a polymethylaluminoxane and trimethylaluminum is preferable.
- the solid polyaluminoxane composition of the present invention can be used as a catalyst carrier, and is particularly suitable as a cocatalyst and catalyst carrier for a catalyst for producing an olefin polymer or an olefin polymer, but the effects of the present invention can be exhibited. As long as it is not limited to these.
- compositions of the present invention preferably have very low solubility in n-hexane and toluene held at 25 ° C.
- leaching of the cocatalyst component, the main catalyst component, or the reaction composition of the main catalyst component and the cocatalyst component produces an amorphous olefin polymer Contributes to fouling in polymerization reactors and the like.
- the composition is an aliphatic hydrocarbon solvent represented by n-hexane used in an olefin polymerization (multimerization) reaction step and / or a catalyst preparation step thereof and an aromatic hydrocarbon solvent represented by toluene
- n-hexane used in an olefin polymerization (multimerization) reaction step and / or a catalyst preparation step thereof
- aromatic hydrocarbon solvent represented by toluene The smaller the solubility in water, the better.
- the solubility in n-hexane at 25 ° C. measured by method (i) is generally less than 0.50 mol%, preferably 0. It is 30 mol% or less, more preferably 0.10 mol% or less. Also, the solubility in toluene at 25 ° C. measured by the method (ii) is usually less than 1.0 mol%, preferably 0.50 mol% or less, more preferably 0.30 mol% or less.
- the lower limit of the solubility in n-hexane and toluene is not particularly significant from the viewpoint of the smaller solubility as described above, but it is preferably 0 mol%.
- the measurement of the solubility can be carried out according to the method described in Japanese Patent Publication No. 7-42301. The specific method is described in the test example.
- the molar fraction (1) and (2) of the solid polyaluminoxane composition in the tetrahydrofuran-d 8 soluble portion is the analysis of MMAO described in Tosoh Research and Technical Report, Vol. 47, 55-60. It can be carried out in the same manner as the method. That is, the mole fractions (1) and (2) are attributed to the polyalkylaluminoxane belonging to the structure of the general formula (1), the structure of the general formula (2) by carrying out 1 H-NMR measurement. It can be determined from the area ratio attributable to each of polyalkylaluminoxane, trimethylaluminum and trialkylaluminum (excluding trimethylaluminum).
- the molar fraction (3) is given by WO 2010/055652
- 1 H-NMR measurement it can be determined from the area ratio attributable to each component of polymethylaluminoxane and trimethylaluminum. The specific method is described in the test example.
- the composition has a molar fraction (1) and (2) of 13 mol% or more, that is, the higher the molar fraction of trialkylaluminum in the tetrahydrofuran-d 8 soluble portion, as measured by method (iii), preferable.
- the molar fraction (3) of the composition as measured by method (iii) is also preferably 13 mol% or more, and in the tetrahydrofuran-d 8 soluble portion, the higher the molar fraction of trimethylaluminum, preferable.
- an antistatic agent is added to prevent fouling due to electrostatic interaction between polymer particles to be formed.
- Antistatic agents generally have a highly polar functional group such as an ionic functional group or polyether functional group in the molecule, and therefore, as a co-catalyst, in order to sufficiently suppress fouling due to leaching. It is necessary to sufficiently prevent the leaching of the active component polyalkylaluminoxane into the reaction solvent even in the presence of a highly polar substance such as an antistatic agent.
- leaching is promoted by the intrinsic intramolecular polarization of the complex.
- the solid polyaluminoxane composition of the present invention is desirably the lower the proportion of polyalkylaluminoxane in the soluble portion of tetrahydrofuran-d 8 which is a polar compound, that is, the higher the content of trialkylaluminum, in tetrahydrofuran -d 8 soluble part, the molar fraction (1) is 13 mol% or more, preferably 14 mol%, more preferably at least 15 mol%, in the same way, tetrahydrofuran -d 8 soluble
- the lower the proportion of polyalkylaluminoxane in the part, that is, the higher the content of trialkylaluminum containing trimethylaluminum, the more desirable, and the molar fraction (2) in the tetrahydrofuran-d 8 soluble part is also 13 mol% or more Preferably it is 14 mol% or more, More preferably, it is 15 mol% or more.
- polymethylaluminoxane tetrahydrofuran -d 8-soluble fraction is low, i.e., preferably higher content of trimethylaluminum in tetrahydrofuran -d 8-soluble fraction, in mole fraction (3) Also, it is 13 mol% or more, preferably 14 mol% or more, more preferably 15 mol% or more.
- the amount is less than 13 mol%, the proportion of leaching of polyalkylaluminoxane such as polymethylaluminoxane is large, and the contact with the transition metal complex as the main catalyst tends to cause the collapse of the solid polyaluminoxane composition.
- a phenomenon such as a decrease in bulk specific gravity of the produced olefin polymer occurs, and fouling easily occurs.
- the upper limit of the molar fraction (1) in the tetrahydrofuran-d 8 soluble part is not particularly limited, but is preferably 99 mol%, for example, since it is preferable that the proportion of the leaching of polyaluminoxane is small.
- the upper limit of the molar fraction (2) and (3) is also similar.
- the composition of the present invention preferably further satisfies the following requirement (iv).
- the solubility in tetrahydrofuran at 25 ° C. measured by the following method (iv) is preferably 95 mol% or less, more preferably 90 mol% or less, still more preferably 85 mol% or less .
- the lower limit of the solubility to tetrahydrofuran is not particularly limited as long as the effects of the present invention are exhibited, but may be, for example, 1 mol% from the viewpoint of leaching.
- the solubility is determined by the same method as the method (i) except that tetrahydrofuran is used instead of n-hexane. Specifically, the solubility is determined by adding 2 g of a solid polyaluminoxane composition to 50 mL of tetrahydrofuran maintained at 25 ° C., stirring for 2 hours, and then separating into a filtrate and a residue by filtration. The aluminum concentration in the filtrate was measured using ICP emission spectrometry (ICP-AES), and the ratio of aluminum atoms present in the filtrate to the amount of aluminum atoms corresponding to 2 g of solid polyaluminoxane composition Ask as.
- ICP emission spectrometry ICP emission spectrometry
- the tetrahydrofuran used in method (iv) is free of stabilizers (such as dibutyl hydroxytoluene (BHT)) and has a water content of less than 2.0 ppm.
- stabilizers such as dibutyl hydroxytoluene (BHT)
- BHT dibutyl hydroxytoluene
- Degassing and dewatering can be carried out by the method described in Organometallics, Vol. 15, Vol. 15, No. 1515-1520.
- the solid polyaluminoxane composition of the present invention is usually in the form of particles, and the specific surface area is preferably in the range of 400 to 800 m 2 / g.
- the specific surface area of the support is known to greatly affect the catalytic activity in the olefin polymerization reaction, and when the specific surface area is small, the activation efficiency of the transition metal complex as the main catalyst decreases and the catalytic activity decreases. There is a fear.
- the specific surface area is too high, the pore diameter of the support generally decreases, and thus the transition metal complex, which is the main catalyst, may not be uniformly supported on the support. From the above, the specific surface area is preferably in the range of 400 to 800 m 2 / g, and more preferably in the range of 420 to 700 m 2 / g.
- the specific surface area of the solid polyaluminoxane composition of the present invention can be determined using the adsorption and desorption phenomena of gas on the solid surface using the BET adsorption isotherm. The specific method is described in the test example.
- the solid polyaluminoxane composition of the present invention preferably has a median diameter D50 in the volumetric statistic range of 0.1 to 100 ⁇ m.
- a median diameter D50 in the volumetric statistic range of 0.1 to 100 ⁇ m.
- the average particle size is larger than 100 ⁇ m, a large number of coarse polymer particles are generated, which may cause troubles such as clogging of a polymer discharge port or a polymer transfer line.
- the average particle size is smaller than 0.1 ⁇ m, many fine polymer particles are generated, and the problem of electrostatic adhesion due to static electricity is not only easily generated, but also the production efficiency is lowered due to the deterioration of sedimentation and filterability. There is a risk of problems.
- the median diameter D50 in the volumetric statistic value is in the range of 0.1 to 100 ⁇ m, more preferably in the range of 0.5 to 80 ⁇ m, and still more preferably 1.0 to 60 ⁇ m. It is a range.
- the median diameter D50 in volumetric statistics can be determined, for example, by laser diffraction / scattering method using MT3300EX II manufactured by Microtrac. The specific method is described in the test example.
- Uniformity ⁇ Xi
- Xi is a histogram value of the particle i
- D50 is a volume-based median diameter
- Di is a volume-based diameter of the particle i.
- the index indicates that the larger the value, the wider the distribution.
- the particle size distribution of the solid polyaluminoxane composition is preferably narrow from the viewpoint of stable operation, as indicated by the above formula (1).
- the uniformity is usually 0.40 or less, preferably 0.30 or less, more preferably 0.27 or less, and still more preferably 0.25 or less.
- the homogeneity of the supported catalyst be equal to or greater than that of the supported catalyst.
- the lower limit of the uniformity may be, for example, 0.15 in consideration of the solid polyaluminoxane composition being formed into particles by self-association.
- the solid polyaluminoxane composition of the present invention may be a slurry dispersed in a solvent, or may be in a dried state where the solvent is removed or in a dried state as necessary.
- the solid polyaluminoxane composition of the present invention does not contain a solid carrier.
- the solid carrier include solid inorganic carriers such as silica, alumina, silica-alumina, and magnesium chloride, and solid organic carriers such as polystyrene beads.
- the solid polyaluminoxane composition of the present invention has the following production method, ie, (A) A solution-like polyaluminoxane composition containing a polyalkylaluminoxane, a trialkylaluminum and a hydrocarbon solvent, and (B) at least one organic compound containing an element of Groups 15 to 17 of the periodic table (hereinafter referred to as “( B) contacting the organic compound))
- the step of reacting a compound having an aluminum-carbon bond contained in the solution-like polyaluminoxane composition (A) with the organic compound (B) under heating conditions to precipitate a solid polyaluminoxane composition Preferably, it is obtained.
- the solution-like polyaluminoxane composition is a polyalkylaluminoxane, preferably a polyalkylaluminoxane containing a constituent unit represented by the general formula (3) and / or the general formula (2), more preferably a general formula (3) And a polyalkylaluminoxane, more preferably a polymethylaluminoxane, a trialkylaluminum, preferably trimethylaluminum, and a hydrocarbon solvent.
- the polyaluminoxane containing the constitutional unit represented by the general formula (3) is one prepared from trimethylaluminum or a trialkylaluminum or triarylaluminum having trimethylaluminum and a hydrocarbon group having 2 to 20 carbon atoms. It is prepared from the above ingredients. When prepared from two or more components, you may contain the structural unit represented by the said General formula (2).
- the trialkylaluminum and the triarylaluminum are as described above.
- polyalkylaluminoxane, trialkylaluminum and the like are as described above.
- the production method is not particularly limited to the preparation method as long as the solution (A) solution-like polyaluminoxane composition used as a raw material contains polyalkylaluminoxane, trialkylaluminum and a hydrocarbon solvent, but it is prepared from only trimethylaluminum.
- the partial hydrolysis reaction of trimethylaluminum described in JP-A 6-329680 or JP-A 2000-509040, described in JP-A 2005-263749 or JP-A 2000-505785 A solution-like polymethylaluminoxane composition prepared by the thermal decomposition reaction of trimethylaluminum and an organic compound containing oxygen can be used as a raw material.
- MMAO modified methylaluminoxane
- any polyaluminoxane composition can be applied as long as it is soluble in a hydrocarbon solvent, but when considering the practice on a commercial scale, widely used commercially available solution poly from the viewpoint of raw material producibility. It is preferable to use an aluminoxane composition, and in particular, to use a solution-like polymethylaluminoxane composition prepared by partial hydrolysis reaction of trimethylaluminum.
- the solution-like polyaluminoxane composition may contain a trialkylaluminum such as trimethylaluminum which is an unreacted raw material in the preparation of (A). Further, it may contain (A) trialkylaluminum such as trimethylaluminum added for preparation of components of the solution-like polyaluminoxane composition.
- a trialkylaluminum such as trimethylaluminum which is an unreacted raw material in the preparation of (A). Further, it may contain (A) trialkylaluminum such as trimethylaluminum added for preparation of components of the solution-like polyaluminoxane composition.
- the mole fraction of alkyl group such as methyl group in the solution-like polyaluminoxane composition is the same as the mole fraction (1) to (3) described above; It can be determined by carrying out 1 H-NMR measurement according to the method described in Technical Report Journal, Vol. 47, No. 55-60.
- the molar fraction of the alkyl group derived from the trialkylaluminum moiety to the total mole number of the alkyl group determined by the above in the solution-like polyaluminoxane composition (A) or the trimethylaluminum moiety to the total mole number of the alkyl group There is no particular limitation on the range of the mole fraction of methyl groups, but it is considered desirable that the amount of the polyalkylaluminoxane component is large.
- the component (A) is a solution-like polymethylaluminoxane composition, it is particularly limited to the range of the mole fraction of methyl group derived from trimethylaluminum moiety to the total mole number of methyl group determined by the above.
- polymethylaluminoxane component Although not preferred, it is considered desirable to have a large amount of polymethylaluminoxane component.
- a metallocene catalyst and a single-site catalyst represented by a post-metallocene catalyst when trimethylaluminum is used alone as a cocatalyst, its catalytic activity is extremely low, and therefore, an aid for a solution-like polyaluminoxane composition
- the performance as a catalyst is known to require a polyalkylaluminoxane component such as polymethylaluminoxane.
- the upper limit of the mole fraction of methyl group derived from trimethylaluminum moiety to the total mole number of methyl group may be usually 60 mole%, preferably 55 mole%, more preferably May be 50 mol%.
- the upper limit of the mole fraction of the alkyl group derived from the trialkylaluminum moiety to the total mole number of the alkyl group and the upper limit of the mole fraction of the methyl group derived from the trimethylaluminum moiety to the total mole number of the alkyl group are also the same.
- the lower limit thereof may be a range in which the gel component does not occur, and varies depending on the method of producing the solution-like polyaluminoxane composition which is the component (A), but generally 6 mol%, preferably 16 mol% It is.
- the concentration of the polyalkylaluminoxane and the trialkylaluminum relative to the hydrocarbon solvent is not particularly limited as far as the effect of the present invention can be obtained if the solution-like polyaluminoxane composition (A) used as the raw material is a solution. It may be any concentration that can be stably stored without precipitation of aluminoxane and trialkylaluminum.
- solution-like polyaluminoxane compositions readily deposit gel-like substances derived from polyalkylaluminoxanes depending on preparation conditions and storage conditions (Japanese Patent Laid-Open No. 2005-263749) and gel-like ones. It is widely known to those skilled in the art that even if the deposition of substances is not visually observed, the solution-like polyaluminoxane composition may contain a gel component.
- the solution-like polyaluminoxane composition (A) may contain the gel component as described above. Even if the component (A) contains a gel by visual observation, it can be used as it is, but from the viewpoint of particle diameter uniformity control, the gel is removed by a method such as filtration or decantation It is more preferable to use it.
- the hydrocarbon solvent used for the solution-like polyaluminoxane composition is not particularly limited as long as the effects of the present invention are exhibited, but a solvent capable of dissolving polyalkylaluminoxane and trialkylaluminum is preferable.
- an inert hydrocarbon solvent is preferable, for example, aliphatic hydrocarbons such as pentane, isopentane, hexane, heptane, octane, decane, dodecane, hexadecane and octadecane; cyclopentane, cyclohexane, methylcyclopentane and the like Alicyclic hydrocarbons; and aromatic hydrocarbons such as benzene, toluene, ethylbenzene, propylbenzene, butylbenzene, xylene, trimethylbenzene, cumene, cymene, tetralin and the like.
- aliphatic hydrocarbons such as pentane, isopentane, hexane, heptane, octane, decane, dodecane, hexadecane and octadecane
- the above-mentioned aromatic hydrocarbon in consideration of the solubility and boiling point of the polyalkylaluminoxane, preferably a polyalkylaluminoxane containing a constitutional unit represented by the general formula (1), more preferably a polymethylaluminoxane
- an aliphatic hydrocarbon solvent or an alicyclic hydrocarbon solvent may be mixed and used as long as the polyalkylaluminoxane component does not precipitate.
- the solvent preferably has a boiling point higher than the temperature at which the solid polyaluminoxane composition precipitates, and more preferably 65 ° C. or higher, but when using a low boiling point solvent, heating at an arbitrary temperature You may pressurize.
- (B) at least one organic compound containing an element of periodic table groups 15 to 17 is a composition such as a polyalkylaluminoxane in the composition (A) and a trialkylaluminum such as trimethylaluminum
- a compound is not particularly limited as long as it is a compound capable of reacting with a compound having an aluminum-carbon bond contained in A) to form a bond between aluminum and an element of Groups 15 to 17, but the reactivity with an alkylaluminum compound is high Compounds are preferred.
- the organic compound (B) may contain two or more elements of Groups 15 to 17 of the periodic table, and may contain two or more of the same elements. The organic compound is different from the polyalkylaluminoxane described above.
- At least one organic compound containing an element of Group 15 of the periodic table is a compound containing nitrogen or phosphorus, or at least one element of Group 16 of the periodic table
- a compound containing oxygen or sulfur is preferable.
- a compound containing a halogen is preferable, and from the viewpoint of reactivity, it is more preferable to use a partially halogenated organic compound .
- nitrogen-containing compounds include amines, imines, imides, amides, nitriles, isocyanides, nitro compounds, nitroso compounds, hydrazine compounds, nitrogen-containing heterocyclic compounds and the like. More specifically, examples of the amine include primary to tertiary amines, diamines, triamines, polyamines, amino compounds and amino acids such as glycine.
- Examples of primary to tertiary amines include methylamine, ethylamine, propylamine, butylamine, amylamine, hexylamine, heptylamine, octylamine, decylamine, dodecylamine, stearylamine, dimethylamine, diethylamine, dipropylamine and diamine.
- Examples thereof include aliphatic amines such as butylamine, trimethylamine and triethylamine, and aromatic amines such as aniline, benzylamine and N, N-dimethylbenzylamine and derivatives thereof.
- diamines examples include ethylenediamine, tetramethylenediamine, pentamethylenediamine, phenylenediamine and the like.
- triamines examples include diethylene triamine.
- amino compound examples include amino alcohols such as ethanolamine, dimethylethanolamine, diethanolamine and triethanolamine.
- the imines include piperidine, piperazine, pyrrolidine and ethyleneimine.
- imide examples include succinimide, maleimide, phthalimide and the like.
- amide examples include carboxylic acid amides, N-substituted amides, N-substituted amides such as N-disubstituted amides, aromatic amides, aromatic amides such as aromatic diamides, urea (urea), carbamide, urethane, lactam, lactim, hydrazide, An imide acid, an imide acid ester, etc. are mentioned. Specifically, for example, acetamide, benzamide and the like can be mentioned.
- nitriles examples include aliphatic nitriles such as butyronitrile and acetonitrile, and benzonitrile, and aromatic nitriles such as phthalonitrile, isophthalonitrile, terephthalonitrile and tetracyanobenzene.
- isocyanide examples include tert-butyl isocyanide, 1,1,3,3-tetramethylbutyl isocyanide, 1-adamantyl isocyanide, 2,6-xyl isocyanide and the like.
- nitro compound examples include nitrobenzene, nitropyridine and the like.
- nitroso compound examples include nitrosodimethylaniline and nitrosonaphthol.
- hydrazine compound examples include hydrazine, methylhydrazine, phenylhydrazine and the like.
- the nitrogen-containing heterocyclic compound includes nitrogen-containing heteromonocyclic compounds and nitrogen-containing fused heterocyclic compounds.
- nitrogen-containing heteromonocyclic compounds include pyrrole and derivatives thereof which are 5-membered ring compounds, diazoles and derivatives thereof such as pyrazole and imidazole, triazoles and derivatives thereof, and pyridine and derivatives thereof which are 6-membered ring compounds;
- Examples include diazines such as pyridazine, pyrimidine and pyrazine and derivatives thereof, triazines, and triazine derivatives such as melamine and cyanuric acid.
- examples of the nitrogen-containing fused heterocyclic compound include quinoline, phenanthroline, purine and the like.
- the compounds containing phosphorus are organic phosphorus compounds such as phosphine, phosphinite, phosphonite, phosphite, phosphinas amide, phosphonas diamide, phosphoro triamide, phosphoramidite, phosphorodiamidite, phosphine oxide, phosphinate, phosphonate, phosphite, phosphite It includes phynic amide, phosphonodiamidate, phosphoramide, phosphoramidate, phosphorodiamidate, phosphine imide, phosphine sulfide, phosphonium ylide, organic phosphonic acid and the like.
- triaryl phosphine examples include triphenylphosphine, tri (o-tolyl) phosphine and tri (o-methoxyphenyl) phosphine.
- triarylphosphines examples include triphenylphosphine, tri (o-tolyl) phosphine and tri (o-methoxyphenyl) phosphine.
- trialkyl phosphines include tricyclohexyl phosphine, tri (tert-butyl) phosphine, bis (tert-butyl) methyl phosphine and the like.
- monoaryl dialkyl phosphines examples include bis (cyclohexyl) biphenyl phosphine, bis (tert-butyl) biphenyl phosphine and the like.
- phosphonites examples include aryl phosphonites such as phenyl diphenoxy phosphine; alkyl phosphonites such as butyl dibutoxy phosphine; and alkyl aryl phosphonites such as phenyl dibutoxy phosphine.
- phosphite examples include aryl phosphites such as triphenyl phosphite; alkyl phosphites such as tributyl phosphite; and alkyl aryl phosphites such as dimethylphenyl phosphite.
- Examples of the compound containing oxygen include alcohols, ethers, aldehydes, ketones, carboxylic acids, carboxylic acid anhydrides, carboxylic acid halides, esters, epoxides, carbonates, oxygen-containing heterocyclic compounds and the like.
- sulfur-containing compounds include thiols, sulfides, disulfides, sulfoxides, thioesters, thionoesters, sulfonic acids, sulfonic acid esters, sulfuranes, persulfuranes, sulfur-containing heterocyclic compounds, and the like.
- thiols As thiols, ethyl mercaptan, propyl mercaptan, butyl mercaptan, amyl mercaptan, hexyl thiol, heptyl thiol, octyl thiol, nonyl thiol, decyl thiol, undecyl thiol, dodecyl thiol, tridecyl thiol, tetradecyl thiol, pentadecyl thiol, Hexadecyl thiol, benzyl mercaptan, o-, m- or p-tolyl mercaptan, o-, m- or p-methylphenyl methanethiol and the like can be mentioned.
- the sulfides include ethyl sulfide, propyl sulfide, butyl sulfide, allyl sulfide, methyl ethyl sulfide and methyl phenyl sulfide.
- disulfides include dihexyl disulfide, diheptyl disulfide, dioctyl disulfide, dinonyl disulfide, didecyl disulfide, diundecyl disulfide, didodecyl disulfide, ditridecyl disulfide, ditetradecyl disulfide, dipentadecyl disulfide and dihexadecyl disulfide It can be mentioned.
- sulfoxide dimethyl sulfoxide and the like can be mentioned.
- thioester methyl thioester, ethyl thio ester, n-propyl thio ester, isopropyl thio ester, t-butyl thio ester, pentyl thio ester, hexyl thio ester and the like can be mentioned.
- sulfonic acid methanesulfonic acid, ethanesulfonic acid, propanesulfonic acid, butanesulfonic acid, pentanesulfonic acid, methanedisulfonic acid, 1,1-ethanedisulfonic acid, 1,1-propanedisulfonic acid, 1,2-ethylene Disulfonic acid, 1,3-propylenedisulfonic acid, hydroxymethanesulfonic acid, 2-hydroxyethanesulfonic acid, 3-hydroxypropanesulfonic acid, 4-hydroxy-2-butanesulfonic acid, 4-hydroxy-1-butanesulfonic acid, etc. Can be mentioned.
- sulfonic acid esters examples include p-toluenesulfonic acid, methoxysulfonic acid, methanesulfonic acid and perfluoroalkylsulfonic acid.
- sulfur-containing heterocyclic compounds examples include thiophene and thiazole.
- the halogen element is more preferably fluorine.
- the organic compounds (B) can be used singly or in combination of two or more.
- the organic compound (B) an organic compound containing an element of periodic group 16 is preferable, and an organic compound (C) containing oxygen is particularly preferable.
- the reaction controllability includes the meaning of the particle diameter controllability of the solid polyaluminoxane composition.
- Organic compounds containing an oxygen atom, which have high reactivity with the component (A) include (D) organic compounds containing an aldehyde, (E) organic compounds containing a ketone, and (F) organic compounds containing an alcohol
- the compound, the organic compound containing (G) carboxylic acid are mentioned.
- a solution-like polymethylaluminoxane composition prepared from trimethylaluminum generally widely marketed as the component (A) can be obtained as a toluene solution.
- a solid polyaluminoxane composition can be prepared under mild heating conditions below the boiling point of toluene.
- an organic compound containing (D) aldehyde, an organic compound containing (E) ketone, and an organic compound containing (F) alcohol are particularly preferably used.
- R 2 is a hydrocarbon group having 1 to 50 carbon atoms, preferably a hydrocarbon group having 1 to 20 carbon atoms; alkyl, cycloalkyl, alkenyl, aryl, aralkyl, monovalent monovalent heterocyclic group, or hydrogen
- An example is formaldehyde, which is an atom.
- the above hydrocarbon group may contain a substituent such as hydroxyl group, alkoxy group, carbonyl group, aldehyde group, carboxylic acid group, ester group, amino group, imino group, nitrile group, halogen and the like.
- R 2 is alkyl, acetaldehyde, 2-chloroacetaldehyde, propionaldehyde, butyraldehyde, isobutyraldehyde, pivalaldehyde, valeraldehyde, isovaleraldehyde, 2-methylbutanal And hexanal, undecanal, 7-methoxy-3,7-dimethyloctanal, oxalaldehyde, malonaldehyde and the like.
- Examples of the cycloalkyl of R 2 include cyclohexanecarbaldehyde and the like.
- R 2 alkenyl, acrolein, 2-butenal, 2-pentenal, 2-hexenal, 2-heptenal, 2-octenal, 2-decenal, 2-dodecenal, 2-octadecenal, 2,4-hexadienal, 2 And 2,4-heptadienal, 2,4-octadienal, cinnamaldehyde, 2-furalacrolein, prenal, geranial, neral, citral, farnesal and the like.
- R 2 is an aryl having 6 to 20 carbon atoms, and benzaldehyde, 2-naphthalaldehyde, o-, m- or p-tolualdehyde, o-, m- or p-fluoro Benzaldehyde, o-, m- or p-chlorobenzaldehyde, o-, m- or p-anisaldehyde, o-, m- or p-acetoxybenzaldehyde, o-, m- or p- (N, N-Dimethylamino) benzaldehyde, o-, m-, or p-phthalaldehyde and the like can be mentioned.
- R 2 is more preferably an aralkyl having 7 to 21 carbon atoms, such as phenylacetaldehyde and 3-phenylpropion. An aldehyde etc. are mentioned.
- the monovalent heterocyclic group represented by R 2 is preferably a heterocyclic ring having 4 to 20 carbon atoms, and examples thereof include furfural, 2-thiophenecarbaldehyde and nicotinaldehyde.
- R 2 is aryl, benzaldehyde, 2-naphthalaldehyde, o-, m- or p-tolualdehyde, o-, m- or p-fluorobenzaldehyde, o-, acrolein, 2-butenal, 2-pentenal, 2-hexenal, 2-heptenal, 2-octenal, such as m- or p-chlorobenzaldehyde, o-, m- or p-phthalaldehyde, etc.
- R 2 is alkenyl , 2-decenal, 2-dodecenal, 2-octadecenal, 2,4-hexadienal, 2,4-heptadienal, 2,4-octadienal, cinnamaldehyde, 2-furanacrolein, prenal, geranial, neral , Citral, farnesal
- R 3 COR 4 As the organic compound containing (E) ketone, one represented by R 3 COR 4 is used.
- R 3 and R 4 may be the same or different, and are alkyl, cycloalkyl, alkenyl, aryl, aralkyl which are a hydrocarbon group having 1 to 50 carbon atoms, preferably a hydrocarbon group having 1 to 20 carbon atoms And monovalent groups of heterocyclic rings.
- the above hydrocarbon group may contain a substituent such as a hydroxyl group, an alkoxy group, a carbonyl group, an aldehyde group, a carboxylic acid group, an ester group, an amino group, an imino group, a nitrile group or a halogen.
- R 3 and R 4 may be linked to each other to form a ring structure.
- examples of alkyl include methyl, ethyl, propyl, isopropyl, propyl, isopropyl, n-butyl, isobutyl, sec-butyl, tert-butyl, n-pentyl and isopentyl , T-pentyl, n-hexyl, isohexyl, s-hexyl, t-hexyl, n-heptyl, isoheptyl, s-heptyl, t-heptyl, n-octyl, isooctyl, s-octyl, t-octyl, nonyl, decyl , Undecyl, dodecyl, tetradecyl, hexadecyl, octadecyl and the like.
- examples of the cycloalkyl include cyclopropyl, cyclobutyl, cyclopentyl, cyclohexyl and the like.
- R 3 and R 4 as alkenyl, vinyl, allyl, butenyl, pentenyl, hexenyl, heptenyl, octenyl, nonenyl, decenyl, dodecenyl, tetradecenyl, hexadecenyl, octadecenyl, eikosenyl, octadecadienyl, 9,12,15- Octadecatrienyl, 9,11,13-octadecatrienyl, crotyl and the like.
- R 3 and R 4 as the aryl, the carbon number is more preferably 6 to 20, and phenyl, tolyl, xylyl, halogenated phenyl, naphthyl, anthryl, phenanthrene, perylene and the like can be mentioned.
- the aralkyl is more preferably 7 to 21 carbon atoms, and examples thereof include benzyl, naphthylmethyl and anthrylmethyl.
- the monovalent monovalent heterocyclic group preferably has 4 to 20 carbon atoms in the heterocyclic ring, and includes furyl, pyrrolyl, pyrrolidinyl, pyridyl, thiophenyl and the like.
- organic compounds containing ketones include acetone, ethyl methyl ketone, propyl methyl ketone, isopropyl methyl ketone, butyl methyl ketone, isobutyl methyl ketone, diethyl ketone, diisopropyl ketone, 2-undecanone, methyl vinyl ketone, acrylophenone , Mesityl oxide, fluoroacetone, chloroacetone, 2,4-pentanedione, cyclobutanone, cyclopentanone, cyclopentanone, cyclohexanone, 2-methylcyclohexanone, cyclodecanone, 2-norbornanone, 2-adamantanone, tetrahydropyran-4-one, benzyl Acetone, 1-indanone, 2-indanone, ⁇ -tetralone, ⁇ -tetralone, 7-methoxy-2-tetralone, acetophenone, propioph
- R 5 is a hydrocarbon group having 1 to 50 carbon atoms, preferably a hydrocarbon group having 1 to 20 carbon atoms, and is alkyl, cycloalkyl, alkenyl, aryl, aralkyl, monovalent monovalent heterocyclic group, or hydrogen Water and the like which are atoms can be mentioned.
- the above hydrocarbon group may contain a substituent such as a hydroxyl group, an alkoxy group, a carbonyl group, an aldehyde group, a carboxylic acid group, an ester group, an amino group, an imino group, a nitrile group or a halogen.
- R 5 is preferably alkyl, methanol, ethanol, propanol, isopropanol, butanol, isobutanol, s- butanol, t-butanol, pentanol, 3-methyl-1-butanol Hexanol, 4-methyl-1-pentanol, 1-phenyl-1-pentanol, heptanol, 5-methyl-1-hexanol, octanol, 2-ethylhexanol, 6-methyl-1-heptanol, nonanol, decanol, Undecanol, dodecanol, tridecanol, tetradecanol, pentadecanol, hexadecanol, heptadecanol, octadecanol, nonadecanol, eicosanol, 2-octyl-1-dodecano
- R 5 cycloalkyl examples include cyclohexanol, 1- or 2-tetralol and the like.
- R 5 is alkenyl, propenol, crotyl alcohol, 2-hexen-1-ol, 2-hepten-1-ol, 2-octen-1-ol, 2-dodecene-1-ol, 2-octadecenol, cinna Mill alcohol, prenol, 2-methyl-3-buten-2-ol, geraniol, linalool, farnesol, nerolidol, phytol, isophitol, geranyl linalool, sorbyl alcohol, 2,4-heptadien-1-ol, etc. It can be mentioned.
- R 5 is aryl having 6 to 20 carbon atoms, such as phenol, o-, m- or p-cresol, o-, m- or p-chlorophenol, 2, 3, 4,5,6-pentafluorophenol, 1,2-, 1,3-, or 1,4-benzenediol, naphthol and the like.
- R 5 is an aralkyl having 7 to 21 carbon atoms, such as benzyl alcohol, o-, m- or p-methylbenzyl alcohol, o-, m- or p-isopropylbenzyl alcohol, o-, m- or p-fluorobenzyl alcohol, 1-phenylethyl alcohol, 1-phenyl-1-propanol, 2-phenyl-2-propanol, 1- (o-, m- or p-tolyl) ethanol Etc.
- benzyl alcohol o-, m- or p-methylbenzyl alcohol
- o-, m- or p-isopropylbenzyl alcohol o-, m- or p-fluorobenzyl alcohol
- 1-phenylethyl alcohol 1-phenyl-1-propanol
- 2-phenyl-2-propanol 1- (o-, m- or p-tolyl) ethanol Etc.
- the monovalent heterocyclic group represented by R 5 is more preferably 4 to 20 carbon atoms in the heterocyclic ring, such as tetrahydrofuran-2-ol, tetrahydrofuran-2,4-diol or 2-hydroxypiperidine. It can be mentioned.
- 1-phenyl-1-pentanol propenol, crotyl alcohol, 2-hexen-1-ol, 2-hepten-1-ol, 2-octen-1-ol, 2-oct-1-ol.
- R 6 is a hydrocarbon group having 1 to 50 carbon atoms, preferably a hydrocarbon group having 1 to 20 carbon atoms; alkyl, cycloalkyl, alkenyl, aryl, aralkyl, monovalent monovalent heterocyclic group, or hydrogen Formic acid which is an atom is mentioned.
- the above hydrocarbon group may contain a substituent such as a hydroxyl group, an alkoxy group, a carbonyl group, an aldehyde group, a carboxylic acid group, an ester group, an amino group, an imino group, a nitrile group or a halogen.
- R 6 when R 6 is alkyl, methyl, ethyl, propyl, isopropyl, butyl, isobutyl, sec-butyl, tert-butyl, 1-methylpropyl, pentyl, 1-methylbutyl, hexyl, 1-methyl And pentyl, heptyl, octyl, 1-methylheptyl, nonyl, decyl, dodecyl, tetradecyl, hexadecyl, octadecyl and the like.
- Specific examples include acetic acid, propionic acid, butyric acid, valeric acid, isovaleric acid, caproic acid, enanthate, caprylic acid, pelargonic acid, capric acid, capric acid, lauric acid, stearic acid, boric acid, malic acid, succinic acid, glutaric acid And adipic acid, suberic acid, sebacic acid, tartaric acid, malic acid, lactic acid and the like.
- R 6 cycloalkyl, 2-cyclopropene carboxylic acid, cyclopentane carboxylic acid, cyclohexane carboxylic acid, 1-tetralin carboxylic acid and the like can be mentioned.
- R 6 alkenyl acrylic acid, methacrylic acid, crotonic acid, senecioic acid, 2-pentenoic acid, 2-hexenoic acid, 2-heptenoic acid, 2-octenoic acid, 2-nonenoic acid, gelanoic acid, 2-decene Acid, 2-dodecenoic acid, 2-dodecenoic acid, 2-octadecenoic acid, farnesyl acid, geranylgeranic acid, cinnamic acid, maleic acid, fumaric acid, traumatic acid, cinnamylideneacetic acid, sorbic acid, muconic acid, 2,4- An octadiene acid etc. can be mentioned.
- R 6 is aryl having 6 to 20 carbon atoms, and examples include phenyl, tolyl, xylyl, halogenated phenyl, naphthyl, anthryl, phenanthrene, perylene and the like.
- benzoic acid o-, m- or p-toluic acid, o-, m- or p-fluorobenzoic acid, 2,3,4,5,6-pentafluorobenzoic acid, o- And m- or p-chlorobenzoic acid, 4-methoxybenzoic acid, naphthoic acid, anthracenecarboxylic acid, phenanthrenecarboxylic acid, perylenecarboxylic acid, phthalic acid, isophthalic acid, terephthalic acid and the like.
- R 6 is aralkyl having 7 to 21 carbon atoms, and examples thereof include benzyl, naphthylmethyl and anthrylmethyl.
- phenylacetic acid, naphthylacetic acid, anthrylacetic acid and the like can be mentioned.
- R 6 is a heterocyclic monovalent group
- the number of carbon atoms contained in the heterocycle is more preferably 4 to 20, and 2-furancarboxylic acid, 3-furancarboxylic acid, nicotinic acid, isonicotinic acid and the like can be mentioned. be able to.
- acrylic acid, methacrylic acid, crotonic acid, senecioic acid, 2-pentenoic acid, 2-hexenoic acid, 2-heptenoic acid, 2-octenoic acid, 2-nonenoic acid, gelamic acid are particularly preferable among these.
- a compound having a structure in which the organic compound (B) has a multiple bond at the ⁇ -position of an element of Group 15-17 for example, a compound having a structure in which the organic compound (B) has a multiple bond at the ⁇ -position of an element of Group 15-17, for example, The compound containing the structure represented by (4) is more preferable because the reaction rate in the reaction of the component (A) with the component (B) is improved.
- E represents a substituent containing an element of groups 15-17.
- R 8 and R 9 , and R 9 and R 10 are mutually linked to form an alicyclic or It may form an aromatic ring.
- R 8 and R 9 may form a direct carbon-carbon bond to form a triple bond
- E and R 10 and / or R 11 may form a direct E-carbon bond.
- E is preferably a nitrogen atom, a phosphorus atom, a substituent containing an oxygen atom or a sulfur atom, a hydrocarbon group containing a halogen atom, or a halogen atom.
- a nitrogen atom, a phosphorus atom, a substituent containing an oxygen atom or a sulfur atom, a hydrocarbon group containing a halogen atom, or a halogen atom correspond to each compound group exemplified above as the (B) organic compound. There is no particular limitation as long as the effects of the present invention can be obtained.
- E is a substituent containing a nitrogen atom
- the substituent corresponds to each of the above-mentioned amine, imine, imide, amide, nitrile, isocyanide, nitro compound, nitroso compound, nitrogen-containing heterocyclic compound It is sufficient if it satisfies that it is a substituent that
- E is preferably a substituent containing an element of periodic table group 16, more preferably an oxygen atom-containing substituent, and alcohol, ether, aldehyde, ketone, Those selected from the respective substituents of the carboxylic acid are more preferable, and those selected from the respective substituents of the aldehyde, the ketone and the alcohol are particularly preferable.
- hydrocarbon group having 1 to 50 carbon atoms specifically, a linear or branched aliphatic hydrocarbon group having 1 to 50 carbon atoms, 3 to 6 carbon atoms Examples thereof include 50 alicyclic hydrocarbon groups and aromatic hydrocarbon groups having 6 to 50 carbon atoms.
- a solid polyaluminoxane composition is prepared by bringing (A) a solution-like polyaluminoxane composition into contact with (B) an organic compound, and heating under the conditions of heating in the solution-like polyaluminoxane composition (A). It is prepared by reacting a compound having an contained aluminum-carbon bond with the organic compound (B) to precipitate.
- components represented by the following general formulas (5) to (7) will be generated depending on the type of organic compound containing an element of Groups 15 to 17 of the periodic table (B) used Be
- R 12 represents a hydrocarbon group having 1 to 20 carbon atoms or an oxygen atom.
- X is a Group 15 atom
- Y is a Group 16 atom
- Z is a Group 17 atom.
- R 13 and R 14 each represent a hydrocarbon group having 1 to 50 carbon atoms, and may be the same or different.
- the components represented by the general formulas (5) to (7) are components having a bond between aluminum and an element of groups 15 to 17, and (B) the organic compound is a liquid polyaluminoxane composition (A) It is produced by reacting with a compound having an aluminum-carbon bond, preferably an aluminum-alkyl bond, such as a polyalkylaluminoxane contained and a trialkylaluminum such as trimethylaluminum (Australian Journal of Chemistry, 1974, 2739-16553, The same 1974, 27 Volume 1655-1663, the 1974 27, Volume 1665-1672, Tetrahedron Letters magazine 1997, Volume 38, 5679-5682).
- the type of the organic compound (B) is important in controlling the particle size and the particle size uniformity of the solid polyaluminoxane composition.
- (B) Not only does the organic compound react with the aluminium-carbon bond, preferably the aluminium-alkyl bond, to directly cause a change in the chain length of the polyalkylaluminoxane, but also for the self-association of the polyalkylaluminoxanes I believe it has an impact.
- the present inventors also speculate that the size of the energetically stable particle size of the solid polyaluminoxane composition largely depends on the nature of the (B) organic compound to be added. For example, when the organic compound (B) contains a component having a long chain alkyl group, the average particle size of the solid polyaluminoxane composition tends to be smaller.
- R 12 to R 14 of the components represented by the general formulas (5) to (7) is a component having a long chain alkyl group, long chain alkyl groups Since it is inhibited that polyalkylaluminoxanes gather in the vicinity due to the repulsion, the self association of the polyalkylaluminoxanes is suppressed, and as a result, it can be considered that the average particle diameter becomes small.
- the organic compound (B) strongly assists self-association of the polyalkylaluminoxanes by functioning as a template, for example, it can be considered that the average particle size becomes large.
- the particle size of the solid polyaluminoxane composition it is possible to arbitrarily control the particle size of the solid polyaluminoxane composition by changing the type of the organic compound (B), and it is possible to adjust the volume statistical value to a middle level. It can be controlled in the range of 0.1 to 100 ⁇ m by D50. Moreover, when the uniformity of the particle size of the solid polyaluminoxane composition is taken into consideration, the uniformity can be further enhanced in the range of 0.5 to 80 ⁇ m in the median diameter D50 in the volumetric statistic value, 1.0 The uniformity can be further enhanced in the range of ⁇ 60 ⁇ m. In addition, the above-mentioned and a test example can be referred to for the intermediate course D50 and the measuring method thereof.
- the particle size distribution of the solid polyaluminoxane composition prepared by the production method is relatively narrow, and the uniformity of the particle size represented by the above formula (1) can be prepared at 0.40 or less.
- the homogeneity of the supported catalyst be equal to or greater than that of the supported catalyst.
- the uniformity of the solid polyaluminoxane composition represented by the above formula is preferably adjusted to 0.30 or less, more preferably 0.27 or less, and still more preferably 0.25 or less. .
- the specific surface area of the solid polyaluminoxane composition obtained from the production method is usually about 400 to 800 (m 2 / g).
- the specific measurement method can refer to the examples.
- the specific surface area of the composition is extremely large as compared to the prior art (see Japanese Patent Publication No. 7-42301 and WO 2010/055652). Although the reason for this is not clear, the present inventors consider what is related to the role of the component (B) in the process of producing the composition.
- the solid polyaluminoxane composition may contain an unreacted raw material, polyalkylaluminoxane, trialkylaluminum such as trimethylaluminum, and (B) an organic compound. Also, it may contain a hydrocarbon solvent which is usually removed by drying but can not be completely removed.
- the amount of the organic compound added (B) is considered to be important. From the viewpoint of giving a certain effect to the particle diameter control of the solid polyaluminoxane composition, the amount of the (B) organic compound added to the (A) solution-like polyaluminoxane composition depends on the type of the (B) organic compound And the amount is preferably 0.01 to 0.35 mole, more preferably 0.03 to 0.3 mole, per mole of aluminum in the component (A), as long as the effects of the present invention are exhibited. Preferably, it is 0.05 to 0.25 mol.
- the upper limit of the concentration A (wt%) of the total of the polyalkylaluminoxane and the trialkylaluminum in the (A) solution-like polyaluminoxane composition depends on the available solution-like polyaluminoxane composition.
- the upper limit in the case of obtaining the composition (A) as a general commercial product is about 30% by weight, but it is not limited in the case of preparation from trialkylaluminum such as trimethylaluminum. Since the concentration A affects the reaction rate, the upper limit is preferably 40% by weight, more preferably 30% by weight, still more preferably 25% by weight, considering the influence on the uniformity of the particle size of the solid polyaluminoxane composition. It is.
- the lower limit of the concentration A is preferably 1% by weight or more, more preferably 3% by weight or more, and still more preferably 5% by weight or more, in consideration of the productivity of the solid polyaluminoxane composition.
- the production method includes the step of contacting (A) a solution-like polyaluminoxane composition with (B) an organic compound.
- the method for bringing the organic compound into contact with the (A) solution-like polyaluminoxane composition is not particularly limited as long as the effects of the present invention can be achieved.
- the solid or liquid component (B) may be in the form of a solution A method in which the polyaluminoxane composition is brought into contact at one time or in divided additions, and the solution obtained by dissolving or suspending the component (B) in a hydrocarbon solvent similar to that used for the component (A) is a solution (A) component is added to (B) component, and the method of making it contact is a method of making batch addition or division
- a method in which the component (B) is added to the component (A) and brought into contact is preferable.
- 1 type of (B) component may be added, or 2 or more types may be mixed and added.
- the reactor used for the reaction of the (A) solution-like polyaluminoxane composition and (B) organic compound is not particularly limited, such as a batch reactor (tank type), a tubular type reactor (continuous type), a continuous tank type reactor, etc. It can be used.
- a tank-type reactor conditions such as reactor volume, type of stirrer and rotational speed are adjusted according to physical property values such as particle diameter and particle size distribution of the desired solid polyaluminoxane composition. It can be selected appropriately.
- the temperature at which the (A) solution-like polyaluminoxane composition is brought into contact with the (B) organic compound is not particularly limited as long as it is 200 ° C. or less, but is selected according to the type of the (B) organic compound to be added. Specifically, it is selected in consideration of the reactivity of the (B) organic compound and the aluminum-carbon bond, preferably the aluminum-alkyl bond. For example, if the solid polyaluminoxane composition precipitates during the addition of the (B) organic compound, problems may arise in the uniformity of the particle size. Thus, when the reactivity of (A) and (B) is very high, it is thought that the uniformity of particle diameter can be made high by making it contact at lower temperature. On the other hand, when the reactivity of (A) and (B) is low, it is desirable to contact at a higher temperature, but there is concern that the (A) solution-like polyaluminoxane composition itself is deteriorated by heating.
- the temperature at which the (A) solution-like polyaluminoxane composition is brought into contact with the (B) organic compound is preferably in the range of -10 to 120 ° C, more preferably in the range of -5 to 110 ° C, still more preferably Is in the range of 0 to 95 ° C.
- the reaction itself does not particularly affect the reaction itself unless a polyalkylaluminoxane such as polymethylaluminoxane is precipitated as a gel, but it is useful for commercial production. In consideration of the cost, the above lower limit is considered to be preferable.
- the temperature at which the (A) solution-like polyaluminoxane composition is brought into contact with the (B) organic compound is also preferably performed under heating conditions from the viewpoint of particle size control.
- the contact temperature is not particularly limited as long as the effects of the present invention are exhibited, but from the viewpoint of particle size control, preferably 40 ° C. or higher, more preferably 50 to 100 ° C., still more preferably 60 to 90 ° C. It is.
- a compound having an aluminum-carbon bond contained in a solution-like polyaluminoxane composition and (B) an organic compound are reacted under heating conditions to obtain at least at least a solid polyaluminoxane composition.
- Including a step of precipitating a part the amount of precipitation is not limited at least in part as long as the solid polyaluminoxane composition precipitates.
- heating conditions are heating at the temperature more than normal temperature.
- the reaction may be carried out at a contact temperature, and the temperature of the reaction solution may be raised continuously to promote the reaction.
- the temperature may be raised stepwise.
- the reaction may be carried out at a temperature lower than the temperature brought into contact.
- the heating rate is not particularly limited, but it may be in the range of about 0.01 to 5 ° C./minute, considering the restriction on the heating equipment in the case of commercial scale.
- the reaction liquid may contain at least a part of the solid polyaluminoxane composition precipitated at the time of contact or after contact.
- the reaction between the (A) solution-like polyaluminoxane composition and (B) the organic compound proceeds, a solid polyaluminoxane composition as a product precipitates out.
- the precipitation start temperature is less than 40 ° C.
- gelled substances and irregularly shaped particles are easily precipitated, which is not preferable from the viewpoint of the uniformity of the particles. Therefore, when the component (A) and the component (B) are brought into contact at less than 40 ° C., the reaction solution is heated so that the precipitation start temperature is 40 ° C. or more, preferably 45 ° C. or more, more preferably 50 ° C. or more Is desirable.
- the heating temperature for the precipitation is (A) solution It is preferable to be above the temperature at which the polyaluminoxane composition and the (B) organic compound are brought into contact with each other.
- the method may further include the step of further heat aging the reaction solution containing the precipitated solid polyaluminoxane composition.
- the temperature for heat ripening is not particularly limited as long as the effects of the present invention are exhibited, but it is preferably 65 to 200 ° C., more preferably 70 to 180 ° C., still more preferably 80 to 170 ° C. from the viewpoint of obtaining a high yield. Even more preferably, it is 90-150 ° C., most preferably 93-130 ° C.
- the composition may be heated and aged at a temperature at which at least a part of the solid polyaluminoxane composition is precipitated.
- the amount of precipitation of the solid aluminoxane composition increases, and when it reaches a certain level, the increase in the amount of precipitation becomes moderate.
- the amount of precipitation of the solid polyaluminoxane composition in a certain time is different when the reaction is performed under the same reaction conditions by changing only the type of the organic compound.
- the recovery rate of the solid aluminoxane composition appears to be largely dependent on the type of the (B) organic compound, but by selecting the optimal reaction conditions according to the type of the (B) component, Solid aluminoxane compositions can be deposited with very high recovery.
- the recovery rate of the solid aluminoxane composition can be represented by the solidification rate of the aluminum component, and is usually 95.0 to 99.9 (%).
- the specific measurement method can refer to a test example.
- the reaction time of (A) solution-like polyaluminoxane composition and (B) organic compound is (A) composition of solution-like polyaluminoxane composition, (B) kind and addition amount of organic compound, reaction concentration, reaction temperature
- the optimum time differs depending on the situation, it is desirable to select the conditions under which the reaction is completed in less than 48 hours, preferably less than 36 hours, more preferably less than 24 hours in consideration of productivity.
- the time required for the precipitation of the solid polyaluminoxane composition is shorter as the addition amount of the (B) organic compound increases, and when the (B) organic compound is the same, (A) in the solution-like polyaluminoxane composition.
- the particle size of the solid polyaluminoxane composition is generally determined at the stage of solid precipitation.
- the solubility of the substance depends on the temperature, so it is considered that the smaller the change in temperature at which the solid polyaluminoxane composition is deposited, the higher the uniformity of the particle size. From this point of view, it is considered desirable that the reaction temperature difference between the initial stage and the final stage of the reaction be small. Therefore, as component (B), the reaction with component (A) proceeds under relatively mild heating conditions, and as the reaction proceeds, a solid polyaluminoxane composition having a relatively uniform particle size can be obtained. It is more preferred to select one that can be deposited.
- the organic compound containing an oxygen atom is a compound represented by the above general formula (4), that is, a compound containing a structure having a multiple bond at the ⁇ position of the oxygen atom, the (A) component and (C) It is more preferable because the reaction rate in the reaction with the components tends to be improved.
- the amount of the organic compound having the structure represented by the general formula (4) (C) added to the solution-like polyaluminoxane composition (A) is 0. 0 per mol of aluminum in the component (A). It is preferably in the range of 01 to 0.35 mol, more preferably 0.03 to 0.3 mol, and still more preferably 0.05 to 0.25 mol.
- the particle diameter of the solid polyaluminoxane composition is that in the reaction using an organic compound containing (C) oxygen atom, the R 12 and R 13 portions of the component represented by the general formula (6) have a long chain alkyl group. In the case of the component, it has a tendency that the average particle size becomes smaller.
- the long chain alkyl group may have a branch.
- the particle size of the solid polyaluminoxane composition is determined by the type of substrate of the organic compound containing (C) oxygen atom, that is, (D) organic compound containing aldehyde, (E) organic compound containing ketone, (F) alcohol A different tendency is seen depending on the organic compound containing, and the organic compound containing (G) carboxylic acid.
- solid polyaluminoxane is produced under the same conditions for the production under the same conditions using an organic compound having the same R 13 of the component represented by the general formula (6).
- the particle size is the largest when using the organic compound containing (E) ketone, and the particle size tends to be small when using the organic compound containing (F) alcohol.
- the present inventors believe that the added organic compound containing (C) oxygen atom has a particular difference in its function as a template promoting self-association of polyaluminoxane. ing.
- the organic compound containing (C) an oxygen atom is an organic compound containing (E) ketone
- the function as a template promoting self-association of polyaluminoxane tends to be particularly strong, and the above-mentioned general formula (6) It is believed that it may be greater than the effect of the component being
- the particle size of the solid polyaluminoxane composition tends to decrease as the addition amount of the component (C) increases, but using an organic compound containing a ketone having a strong function as a template, an organic compound containing a ketone
- the particle size may increase as the addition amount of is increased.
- the solid when using the organic compound containing (E) ketone and the organic compound containing (D) aldehyde Precipitation of the fibrous polyaluminoxane composition is rapid, then the organic compound containing (F) alcohol, and the precipitation of solid polyaluminoxane composition tends to be the slowest when using the organic compound containing (G) carboxylic acid Seen.
- the form of these precipitation is usually particulate.
- the production method may further include the step of washing the precipitated solid polyaluminoxane composition, for example, using the above-mentioned hydrocarbon solvent.
- the hydrocarbon solvent that can be used is not particularly limited as long as the effects of the present invention are exhibited, but it is preferable to select according to the purpose of use. That is, it is preferable to select a solvent applicable to the olefin polymerization process, and a solvent having a low boiling point if drying is intended.
- the present invention includes an olefin polymerization (multimerization) catalyst (hereinafter, also referred to as "olefins polymerization (multimerization) catalyst").
- the olefin polymerization catalyst of the present invention is obtained by contacting the solid polyaluminoxane composition of the present invention with the (H) transition metal complex represented by the following general formula (8).
- R 31 R 32 R 33 R 34 M (Wherein, M represents a transition metal atom, and R 31 , R 32 , R 33 and R 34 may be the same as or different from each other, and have a cyclopentadienyl skeleton, alkyl, cycloalkyl, aryl, Aralkyl, alkoxy, aryloxy, halogen atom, alkylsilyl, alkylamide, alkylimide, -SO 3 R or hydrogen atom is shown) ⁇ (H) transition metal complex>
- the (H) transition metal complex used in the present invention is not particularly limited as long as it is a transition metal compound which can function as a known olefin polymerization (multimerization) catalyst.
- M in the general formula (8) is a transition metal atom of Groups 3 to 10 of the periodic table, and specifically, scandium, yttrium, lanthanum, titanium, zirconium, hafnium, vanadium, tantalum, chromium, manganese, And iron, cobalt, nickel, palladium, niobium, etc., preferably the periodic law 3 to 6 groups, more preferably the periodic law 4 to 5 groups, still more preferably the periodic law 4 transition A metal atom is mentioned.
- cyclopentadienyl as a group having a cyclopentadienyl skeleton, for example, cyclopentadienyl; methylcyclopentadienyl, dimethylcyclopentadienyl, trimethylcyclopentadienyl, tetramethylcyclopentadienyl, penta Methyl cyclopentadienyl, ethyl cyclopentadienyl, methyl ethyl cyclopentadienyl, propyl cyclopentadienyl, methyl propyl cyclopentadienyl, butyl cyclopentadienyl, methyl butyl cyclopentadienyl, hexyl cyclopentadienyl And alkyl substituted cyclopentadienyl such as; indenyl; 4,5,6,7-tetrahydroindenyl; fluorenyl,
- the group also includes indenyl, fluorenyl, azulenyl and a group in which one or more hydrogen atoms of these groups are substituted with a hydrocarbon group, and in the case of a group having indenyl, fluorenyl, azulenyl, cyclopentadienyl Some or all of the double bonds of the unsaturated ring condensed to These groups may be substituted with a halogen atom, trialkylsilyl and the like.
- a hydrocarbon group having 1 to 12 carbon atoms can be mentioned.
- methyl, ethyl, propyl examples thereof include alkyl such as isopropyl, butyl and pentyl; cycloalkyl such as cyclopentyl and cyclohexyl; aryl such as phenyl and tolyl; and aralkyl such as benzyl and neophyl.
- alkoxy examples include methoxy, ethoxy, butoxy and the like.
- aryloxy examples include phenoxy and the like.
- alkylsilyl examples include trimethylsilyl, triethylsilyl, t-butyldimethylsilyl, triisopropylsilyl and the like.
- alkylamide examples include dimethylamide, diethylamide and the like.
- alkylimide examples include methylcarbonylaminocarbonyl, ethylcarbonylaminocarbonyl, n-butylcarbonylaminocarbonyl and the like.
- halogen atom examples include fluorine, chlorine, bromine and iodine.
- Examples of the ligand represented by —SO 3 R include p-toluenesulfonato, methanesulfonato, trifluoromethanesulfonato and the like.
- R is a monovalent functional group.
- transition metal complex examples include transition metal halides, transition metal alkylates, transition metal alkoxylates, non-crosslinkable or crosslinkable metallocene compounds and the like.
- non-crosslinkable or one or more, preferably one or two, groups having a cyclopentadienyl skeleton A crosslinkable metallocene compound is mentioned, and a non-crosslinkable or crosslinkable metallocene compound having two cyclopentadienyl skeletons is more preferable.
- the group having a cyclopentadienyl skeleton is as described above.
- groups having two cyclopentadienyl skeletons among them are ethylene, alkylene such as propylene; alkylidene such as isopropylidene, diphenylmethylene; silylene; dimethyl silylene, It may be linked through diphenyl silylene, substituted silylene such as methyl phenyl silylene and the like.
- examples of other ligands include hydrocarbon groups having 1 to 12 carbon atoms, such as alkyl, cycloalkyl, aryl and aralkyl, alkoxy, aryloxy, halogen atoms, alkylsilyl, alkyl Amide, alkyl imide, -SO 3 R or hydrogen atom can be mentioned. The specific examples of these are as described above.
- M represents the same transition metal atom as that defined by the above general formula (8).
- M include titanium, zirconium, hafnium, vanadium, niobium and tantalum, preferably titanium, zirconium and hafnium.
- Q represents a hydrocarbon group which may contain a hetero atom.
- the hydrocarbon group for example, a halogen atom-containing hydrocarbon group, an oxygen-containing hydrocarbon group (for example, a group containing an oxygen atom in the form of alkoxy, carbonyl or carboxyl), a sulfur-containing hydrocarbon group (for example, a sulfur atom) Alkylthio, thiocarbonyl, thiocarboxyl, a group containing in the form of dithiocarboxy), silicon-containing hydrocarbon groups (for example, a group containing a silicon atom in the form of -Si (R 20 ) (R 21 ) (R 22 )), phosphorus form of containing hydrocarbon group (e.g., a phosphorus atom -P (R 23) (a group containing in the form of R 24)), nitrogen-containing hydrocarbon group (e.g., nitrogen atom and -N (R 25) (R 26) (a group containing in the form of R 24
- the number of carbon atoms of the hydrocarbon group is preferably 1 to 8, and more preferably alkyl having 1 to 8 carbon atoms, alkenyl having 1 to 8 carbon atoms, or having a substituent. It is preferably an alkynyl having 1 to 8 carbon atoms or an optionally substituted aryl having 1 to 8 carbon atoms, and most preferably an alkyl having 1 to 8 carbon atoms.
- j is an integer of 1 to 4, preferably an integer of 2 to 4, and more preferably 2 or 3.
- j is an integer of 2 or more, a plurality of Qs may be the same or different.
- Cp 1 and Cp 2 may be identical to or different from each other, and denote cyclopentadienyl or substituted cyclopentadienyl which can form a sandwich structure with M.
- the substituted cyclopentadienyl is a group in which at least one hydrogen atom of cyclopentadienyl is substituted with a substituent. With respect to these groups, reference can also be made to the above.
- substituted cyclopentadienyl As a substituent in substituted cyclopentadienyl, for example, it is referred to as a hydrocarbon group (hereinafter sometimes referred to as “the group (f1)”) or a silicon-containing hydrocarbon group (hereinafter “the group (f2)”) May be mentioned).
- the group (f1) a hydrocarbon group
- the group (f2) silicon-containing hydrocarbon group
- heteroatom-containing hydrocarbon groups such as a halogenated hydrocarbon group, an oxygen-containing hydrocarbon group, a nitrogen-containing hydrocarbon group and the like (except for the silicon-containing hydrocarbon group (f2)
- a substituent in substituted cyclopentadienyl for example, it is referred to as a hydrocarbon group (hereinafter sometimes referred to as “the group (f1)”) or a silicon-containing hydrocarbon group (hereinafter “the group (f2)”) May be mentioned).
- heteroatom-containing hydrocarbon groups such as a halogenated hydrocarbon group,
- the group (f1) is preferably a hydrocarbon group having 1 to 20 carbon atoms, and, for example, a linear or branched hydrocarbon group (eg, alkyl, alkenyl, alkynyl), cyclic saturated hydrocarbon group (Example: cycloalkyl), cyclic unsaturated hydrocarbon group (example: aryl).
- the hydrocarbon group (f1) also includes a group in which any two hydrogen atoms bonded to adjacent carbon atoms among the above-mentioned groups are simultaneously substituted to form an alicyclic or aromatic ring.
- group (f1) examples include methyl, ethyl, n-propyl, n-butyl, n-pentyl, n-hexyl, n-heptyl, n-octyl, n-nonyl, n-decanyl and allyl
- linear aliphatic hydrocarbon groups such as (allyl); isopropyl, isobutyl, sec-butyl, t-butyl, amyl, 3-methylpentyl, neopentyl, 1,1-diethylpropyl, 1,1-dimethylbutyl, Branched aliphatic hydrocarbon groups such as 1-methyl-1-propylbutyl, 1,1-propylbutyl, 1,1-dimethyl-2-methylpropyl, 1-methyl-1-isopropyl-2-methylpropyl and the like; Cyclic saturated hydrocarbon groups such as cyclopentyl, cyclohexyl, cycl
- a linear or branched aliphatic hydrocarbon group having 1 to 20 carbon atoms specifically, methyl, ethyl, n-propyl, n-butyl, n-hexyl, isopropyl , Isobutyl, sec-butyl, t-butyl, neopentyl and the like.
- the group (f2) is preferably a silicon-containing hydrocarbon group having 1 to 20 carbon atoms, and examples thereof include groups in which a silicon atom is directly covalently bonded to a ring carbon of cyclopentadienyl. Specifically, alkylsilyl (eg, trimethylsilyl) and arylsilyl (eg, triphenylsilyl) can be mentioned.
- hetero atom-containing hydrocarbon group examples include methoxy, ethoxy, phenoxy, N-methylamino, trifluoromethyl, tribromomethyl, pentafluoroethyl and pentafluorophenyl. It can be mentioned.
- Y is a divalent hydrocarbon group having 1 to 30 carbon atoms, a divalent halogenated hydrocarbon group having 1 to 20 carbon atoms, a divalent silicon-containing group, and a divalent germanium-containing group Group, divalent tin-containing group, -O-, -CO-, -S-, -SO-, -SO 2- , -Ge-, -Sn (tin)-, -NR a- , -P (R a) -, - P (O ) (R a) -, - BR a - or -AlR a - it shows the.
- R a represents a hydrocarbon group having 1 to 20 carbon atoms, a halogenated hydrocarbon group having 1 to 20 carbon atoms, a hydrogen atom, a halogen atom or a hydrocarbon group having 1 to 20 carbon atoms as a nitrogen atom. It is a nitrogen compound residue (—NRH or —NR 2 ; R is a hydrocarbon group having 1 to 20 carbon atoms) in which individual or double bonded nitrogen compound residues.
- the compounds represented by the above general formula (A2) are preferable, and a crosslinking type represented by the following general formula (II) as disclosed in WO 2001/27124 pamphlet A metallocene compound (hereinafter also referred to as "bridged metallocene compound (II)”) is more preferable.
- the bridged metallocene compound (II) has the following features [m1] to [m3] in terms of structure.
- aryl group-containing covalent bond bridge consisting of a carbon atom having aryl (aryl) or a silicon atom.
- the transition metal (M) constituting the metallocene compound is an atom of Group 4 of the periodic table, specifically titanium, zirconium or hafnium.
- R 1 , R 2 , R 3 and R 4 each independently represent a hydrogen atom, a hydrocarbon group, a silicon-containing group or a hetero atom-containing group other than a silicon-containing group, a hydrogen atom, a hydrocarbon group Alternatively, a silicon-containing group is preferable, and two adjacent groups may be bonded to each other to form a ring.
- R 1 , R 2 , R 3 and R 4 are hydrogen atoms, or at least one of R 1 , R 2 , R 3 and R 4 is a hydrocarbon group (preferably having 1 carbon atom) Or a hydrocarbon group of ⁇ 20 or a silicon-containing group (preferably a silicon-containing group having 1 to 20 carbon atoms).
- hetero atom-containing groups such as a halogenated hydrocarbon group, an oxygen-containing group, and a nitrogen-containing group can also be mentioned.
- R 1 , R 2 , R 3 and R 4 are substituents other than a hydrogen atom
- the substituents may be the same as or different from one another; R 1 , R 2 , R 3 And two adjacent groups of R 4 may be bonded to each other to form an alicyclic or aromatic ring.
- Examples and preferred examples of the hydrocarbon group in R 1 to R 4 include the hydrocarbon group (f1) defined in the above-mentioned substituted cyclopentadienyl group.
- Examples and preferred examples of the silicon-containing group in R 1 to R 4 include the silicon-containing group (f2) defined in the above-mentioned substituted cyclopentadienyl group.
- Examples of the hetero atom-containing group in R 1 to R 4 include the groups exemplified for the substituted cyclopentadienyl mentioned above.
- R 5 , R 8 , R 9 and R 12 each independently represent a hydrogen atom, a hydrocarbon group, a silicon-containing group or a hetero atom-containing group other than a silicon-containing group, a hydrogen atom, a hydrocarbon group Or silicon-containing groups are preferred.
- R 6 and R 11 are the same atom or the same group selected from hydrogen atom, hydrocarbon group, silicon-containing group and hetero atom-containing group other than silicon-containing group, and hydrogen atom, hydrocarbon group and silicon-containing group are
- R 7 and R 10 are the same atom or the same group selected from hydrogen atoms, hydrocarbon groups, silicon-containing groups and hetero atom-containing groups other than silicon-containing groups; hydrogen atoms, hydrocarbon groups and silicon-containing groups R 6 and R 7 may be bonded to each other to form a ring, and R 10 and R 11 may be bonded to each other to form a ring; provided that “R 6 , R 7 , R 10 and R 11 are not all “hydrogen atoms”.
- R 6 and R 11 are not both hydrogen atoms. More preferably, none of R 6 , R 7 , R 10 and R 11 is a hydrogen atom. It is particularly preferred that R 6 and R 11 are the same group selected from a hydrocarbon group and a silicon-containing group, and R 7 and R 10 are the same group selected from a hydrocarbon group and a silicon-containing group. It is also preferred that R 6 and R 7 bond together to form an alicyclic or aromatic ring, and R 10 and R 11 bond together to form an alicyclic or aromatic ring.
- Examples and preferred examples of the hydrocarbon group in R 5 to R 12 include the hydrocarbon group (f1) defined in the above-mentioned substituted cyclopentadienyl group.
- Examples and preferred examples of the silicon-containing group in R 5 to R 12 include the silicon-containing group (f2) defined in the above-mentioned substituted cyclopentadienyl group.
- Examples of the hetero atom-containing group in R 5 to R 12 include the groups exemplified for the substituted cyclopentadienyl mentioned above.
- R 6 and R 7 As substituted fluorenyl when R 6 and R 7 (R 10 and R 11 ) combine with each other to form an alicyclic or aromatic ring, they are derived from the compounds represented by the general formulas (III) to (VII) described later Groups are mentioned as suitable examples.
- R 13 and R 14 each independently represent aryl, and Y 1 represents a carbon atom or a silicon atom.
- An important point in the method for producing an olefin polymer of the present invention is that aryl (aryl) [R 13 and R 14 ] which may be the same or different from each other is bonded to the bridging atom Y 1 of the bridging portion. is there.
- R 13 and R 14 are preferably identical to each other for ease of production.
- aryl examples include groups in which one or more of phenyl, naphthyl, anthracenyl and aromatic hydrogen (sp2-type hydrogen) that they have are substituted with a substituent.
- substituent examples include the hydrocarbon group (f1) and the silicon-containing group (f2) defined in the above-mentioned substituted cyclopentadienyl, a halogen atom and a halogenated hydrocarbon group.
- aryl examples include unsubstituted aryl having 6 to 14 carbon atoms, preferably 6 to 10 carbon atoms such as phenyl, naphthyl, anthracenyl and biphenyl; tolyl, dimethylphenyl, isopropylphenyl, n-butylphenyl, t -Alkyl substituted aryl such as butylphenyl; cycloalkyl substituted aryl such as cyclohexylphenyl; halogenated aryl such as chlorophenyl, bromophenyl, dichlorophenyl, dibromophenyl and the like; halogen such as (trifluoromethyl) phenyl, bis (trifluoromethyl) phenyl and the like And substituted alkyl substituted aryl.
- the position of the substituent is preferably meta and / or para. Among these, substituted phenyl in which the substituent is located at the meta
- Q represents an alkyl which may contain a hetero atom
- j represents an integer of 1 to 4
- a plurality of Qs may be the same or different.
- alkyl in Q examples include the same atoms or groups as Q in the formulas [A1] and [A2].
- octamethyloctahydrodibenzofluorenyl refers to a group derived from a compound having a structure represented by formula (III)
- octamethyltetrahydrodicyclopentafluorenyl is represented by formula (IV)
- dibenzofluorenyl is a group derived from a compound having a structure represented by formula (V): 1,1 ′, 3,6,8,8 ′ ′-hexamethyl- 2,7-dihydrodicyclopentafluorenyl refers to a group derived from a compound having a structure represented by formula (VI) and is 1,3,3,3 ', 6,6', 8-hexamethyl-2,7- Dihydrodicyclopent
- the above metallocene compounds can be produced by known methods, and the production method is not particularly limited. Examples of known methods include the methods described in International Publication Nos. WO 2001/27124, WO 2004/029062, and WO 2004/87775 by the applicant.
- transition metal compounds in which M in the general formula (8) is zirconium are exemplified below, but the compounds are not limited thereto.
- the disubstituted cyclopentadienyl ring includes 1,2- and 1,3-substituted ones, and the trisubstituted ones include 1,2,3- and 1,2,4-substituted ones. Including.
- Alkyl such as propyl and butyl also includes isomers such as n-, i-, sec- and tert-.
- a transition metal compound in which a zirconium metal is replaced with a titanium metal or a hafnium metal in the above-mentioned zirconium compounds.
- a hafnium metal bis (t-butylcyclopentadienyl) hafnium dichloride can be exemplified.
- transition metal compounds are described in JP-A-11-315109, JP-A-2000-239312, WO 2001/55231 pamphlet, and Chemical Review magazine 2011, Vol. 111, pp. 2363-2449. And transition metal compounds represented by the following general formula (9).
- M represents a transition metal atom of Groups 4 to 10 of the periodic table
- m is an integer of 1 to 6
- R 19 to R 24 may be the same as or different from each other, and a hydrogen atom, a halogen atom, a hydrocarbon group, a heterocyclic compound residue, an oxygen containing group, a nitrogen containing group, a boron containing group, a sulfur containing group, phosphorus And a silicon-containing group, a germanium-containing group, or a tin-containing group, and two or more of these may be linked to each other to form a ring
- n is a number satisfying the valence of M
- X represents a hydrogen atom, a halogen atom, a hydrocarbon group, an oxygen containing group, a sulfur containing group, a nitrogen containing group, a boron containing group, an aluminum containing group, a
- bis ⁇ N- (5-adamantyl-3-methylsalicylidene) -2-methylcyclohexylaminato ⁇ zirconium (IV) dichloride bis ⁇ N- (3-tert-butylsalicylidene)- 2,3,4,5,6-Pentafluoroanilinato ⁇ titanium (IV) dichloride can be exemplified.
- the (H) transition metal compound for example, it has a cross-linked bis aromatic ligand described in WO 2003/091262, US Patent Application 2004/0010103, WO 2007/136496. Also included are transition metal complexes.
- bis ((2-oxoyl-3- (3,5-bis (1,1-dimethylethyl) phenyl)-(5- (1,1-dimethylethyl) phenyl)-(4- (1 1,1-Dimethylethyl) -2-phenoxy) -propane-1,3-diyl zirconium (IV) dichloride can be exemplified.
- (H) transition metal compound for example, the following general formula (10) as described in WO 2009/5003 pamphlet, JP 2011-178682 A, JP 2011-195584 A The compounds represented are also mentioned.
- R 25 to R 30 may be the same as or different from each other, and a hydrogen atom, a halogen atom, a hydrocarbon group, a heterocyclic compound residue, an oxygen-containing group, a nitrogen-containing group, boron containing group, an aluminum-containing group, a sulfur-containing group, a phosphorus-containing group, a silicon-containing group, a germanium-containing group or a tin-containing group, two or more of them may be linked to each other. Further, R 25 is It may be linked with Z.
- M represents a transition metal atom selected from Groups 3 to 10 of the periodic table.
- N shows the valence of M.
- X represents a hydrogen atom, a halogen atom, a hydrocarbon group, an oxygen containing group, a sulfur containing group, a nitrogen containing group, a boron containing group, an aluminum containing group, a phosphorus containing group, a halogen containing group, a heterocyclic compound residue, a silicon containing A group, a germanium-containing group or a tin-containing group is shown, and the atoms and groups represented by X may be the same or different from each other, and the groups represented by X may be bonded to each other to form a ring.
- Y represents an oxygen atom, a nitrogen atom, a phosphorus atom or a sulfur atom.
- Z represents a hydrocarbon group or heterocyclic compound residue which may have a substituent, and the shortest number of bonds connecting Y and N is 4 to 6.
- the bond connecting Y and Z may be a double bond or a triple bond
- the bond connecting Y and R 25 may be a double bond or a triple bond
- dotted lines indicate coordination bonds.
- a solid support may be used in combination, as needed, as long as the effects of the present invention are not impaired.
- the solid carrier include solid inorganic carriers such as silica, alumina, silica-alumina, and magnesium chloride, and solid organic carriers such as polystyrene beads.
- the number of moles of Al atom in the composition / (the number of moles of (H) transition metal compound)] is usually 1 to 10000, preferably 3 to 3000, more preferably 5 to 1000, still more preferably 10 to It is 500, particularly preferably 20 to 400.
- the ratio of the number of moles of Al atoms in the solid polyaluminoxane composition to the number of moles of the component (H) transition metal compound is smaller than the above range, sufficient catalytic activity may not be exhibited, and it is larger than the above range The case is economically unpreferable.
- the olefin polymerization catalyst of the present invention can be prepared by contacting the solid polyaluminoxane composition with the component (H) transition metal compound in an organic solvent.
- the contacting method is not particularly limited as long as the effects of the present invention are exhibited.
- a solid or liquid (H) transition metal compound is added at once or divided into a suspension consisting of a solid polyaluminoxane composition and an organic solvent
- a method of adding and contacting a method of bringing about a solution in which a component (H) is dissolved or suspended in an organic solvent into batch addition or divided addition to a suspension composed of a solid polyaluminoxane composition and an organic solvent, Or, conversely, there is a method in which a solid polyaluminoxane composition suspended in a solid or organic solvent is added to the (H) component and brought into contact. From the viewpoint of making the reaction uniform, it is preferable to add the (H) component to the solid polyaluminoxane composition. When two or more (H) transition metal compounds are used in combination, the (H) component may be added one by one or two or more may be mixed.
- the solvent used for preparation of the olefin polymerization catalyst of the present invention is not particularly limited, but a solvent which does not directly react with the solid polyaluminoxane composition is preferable, and an inert hydrocarbon solvent is particularly preferable.
- aliphatic hydrocarbons such as butane, isobutane, pentane, isopentane, hexane, heptane, octane, decane, dodecane, hexadecane and octadecane; alicyclic hydrocarbons such as cyclopentane, cyclohexane and methylcyclopentane; benzene And aromatic hydrocarbons such as toluene, ethylbenzene, propylbenzene, butylbenzene, xylene, trimethylbenzene, cumene, cymene and tetralin. These solvents may be used alone or in combination of two or more.
- the temperature for preparing the olefin polymerization catalyst of the present invention is preferably selected and treated between -20 and 200 ° C.
- the olefin polymerization catalyst of the present invention may be used without washing, and may be used after washing with the above-mentioned organic solvent.
- the olefin polymerization catalyst of the present invention may be a slurry dispersed in a solvent, or may be in a dried state as required, with the solvent removed.
- the process for producing an olefin polymer of the present invention comprises the step of polymerizing an olefin in the presence of the olefin polymerization catalyst of the present invention.
- the olefin polymerization catalyst of the present invention may be used as it is as a catalyst or as a catalyst component, or may be used as a prepolymerized catalyst obtained by prepolymerizing an olefin.
- the olefin polymer can be produced by a known method as long as the process is included.
- the olefin polymer includes homopolymers of olefin and copolymers such as block copolymers and random copolymers produced from two or more olefins.
- a polymerization method for example, a slurry polymerization method using a nonpolar solvent such as butane, pentane, hexane, heptane or octane, a gas phase polymerization method in which a monomer is brought into contact with a catalyst in a gas state and polymerization is carried out.
- the bulk polymerization method etc. which polymerize a monomer as a solvent in it can be mentioned.
- the polymerization may be any of multistage polymerization such as one-stage polymerization and two-stage polymerization, continuous polymerization, and batch polymerization.
- the inert hydrocarbon medium used in the slurry polymerization method include aliphatic hydrocarbons such as propane, butane, pentane, hexane, heptane, octane, decane, dodecane and kerosene; cyclopentane, cyclohexane, methylcyclopentane, etc.
- Alicyclic hydrocarbons such as: aromatic hydrocarbons such as benzene, toluene and xylene; halogenated hydrocarbons such as ethylene chloride, chlorobenzene and dichloromethane or mixtures thereof, etc., and using olefin itself as a solvent You can also.
- the transition metal atom derived from the component (H) contained in the solid catalyst component is usually 10 -12 to 1 liter of the reaction volume. It is used in an amount of 10 -1 mole, preferably 10 -8 to 10 -2 mole.
- the polymerization temperature of the olefin using the above-mentioned olefin polymerization catalyst component is usually in the range of ⁇ 50 to 200 ° C., preferably 0 to 170 ° C., and particularly preferably 40 to 170 ° C.
- the polymerization time can be usually in the range of 10 seconds to 20 hours.
- the polymerization pressure is usually 0.001 MPa to 250 MPa, preferably 0.005 MPa to 50 MPa, more preferably 0.005 MPa to 10 MPa.
- the polymerization reaction can be carried out either batchwise, semicontinuously or continuously. Furthermore, it is also possible to divide the polymerization into two or more stages under different reaction conditions.
- the molecular weight of the resulting olefin polymer can be controlled by the presence of hydrogen in the polymerization system or by changing the polymerization temperature.
- at least one compound selected from polyalkylene oxide blocks, higher aliphatic amides, polyalkylene oxides, polyalkylene oxide alkyl ethers, alkyl diethanolamines and polyoxyalkylene alkyl amines for the purpose of fouling suppression or particle property improvement. May coexist.
- Examples of the olefin used in the method for producing an olefin polymer of the present invention include ⁇ -olefins having 2 to 20 carbon atoms, cyclic olefins having 3 to 20 carbon atoms, and diene compounds having 4 to 20 carbon atoms.
- the present invention is not limited thereto. In the present invention, these olefins may be used alone or in combination of two or more.
- Examples of the ⁇ -olefin having 2 to 20 carbon atoms include ethylene, propylene, 1-butene, 1-pentene, 1-hexene, 1-heptene, 4-methyl-1-pentene, 1-octene, 1-decene, 1 -Dodecene, 1-hexadecene, 1-eicosene and the like.
- Preferred are ethylene, propylene, 4-methyl-1-pentene, 1-hexene, 1-octene and 1-decene.
- cyclic olefin having 3 to 20 carbon atoms examples include cyclopropene, cyclopentene, cyclohexene, cycloheptene, norbornene and tetracyclododecene.
- norbornene and tetracyclododecene are used.
- Examples of the diene compound having 4 to 20 carbon atoms include butadiene, isoprene, 1,5-hexadiene, 1,7-octadiene, 1,3-cyclohexadiene, 1,4-cyclohexadiene, 1,5-cyclooctadiene, Examples include dicyclopentadiene, norbornadiene, 5-vinyl-2-norbornene, 5-ethylidene-2-norbornene and the like. Preferred are butadiene, isoprene, 5-vinyl-2-norbornene, 5-ethylidene-2-norbornene and the like.
- monomers having a ring structure such as styrene, ⁇ -methylstyrene and vinylcyclohexane
- polar monomers such as acrylic acid, methacrylic acid, fumaric acid, maleic anhydride, methyl acrylate, ethyl acrylate, methyl methacrylate and ethyl methacrylate
- bisfluoroethylene, trifluoroethylene, tetrafluoroethylene, hexafluoropropene and halogen-substituted olefins such as chloroethylene can be used.
- the olefin polymer obtained by the polymerization reaction may be separated and recovered from the polymerization solvent by the conventionally known method after the polymerization is completed, and may be obtained by drying.
- Test example The present invention is not limited to these test examples.
- the preparation of the solid polyaluminoxane composition of the present invention, the solvent purification and the preparation of the olefin polymerization (multimerization) catalyst are all carried out under an inert gas atmosphere, and the solvent used is purified and dried in advance by known methods. Deoxygenated one was used.
- the hexane, toluene and tetrahydrafuran used in the solubility test of the solid polyaluminoxane composition used had a water content of less than 2.0 ppm. Also, tetrahydrofuran was used without a stabilizer. Degassing and dewatering was carried out by the method described in Organometallics, Vol. 15, Vol. 15, No. 1515-1520.
- Diphenylmethylene (3-tert-butyl-5-methyl-cyclopentadienyl) (2,7-di-tert-butyl-fluorenyl) zirconium dichloride was synthesized according to the method described in WO 2004/87775.
- Di-p-tolylmethylene (cyclopentadienyl) (octamethyloctahydrodibenzofluorenyl) zirconium (IV) dimethyl is a di-p-tolylmethylene (cyclopentadienyl) compound described in WO 2004/029062. It was synthesized by the methylation reaction of enil) (octamethyloctahydrodibenzofluorenyl) zirconium (IV) dichloride.
- a solid polyaluminoxane composition was used, and a sample previously deactivated in a wet desiccator under nitrogen flow was used.
- Methanol was mainly used as the dispersion medium.
- the uniformity used the definition shown by the following formula according to the method as described in WO 2010/055652.
- Uniformity XXi
- Xi is a histogram value of the particle i
- D50 is a volume-based median diameter
- Di is a volume-based diameter of the particle i.
- the dissolution rate obtained by this method is determined as the ratio of aluminum atoms present in the above filtrate to the amount of aluminum atoms corresponding to 2 g of the solid polyaluminoxane composition used as a sample.
- the solid polyaluminoxane composition was dried at 25 ° C. under reduced pressure, and the time when no change in weight was observed was taken as the end point of the drying.
- the measurement of the solubility in tetrahydrofuran at 25 ° C. was performed by the method described above except that the solvent used was changed to 50 mL of tetrahydrofuran.
- the aluminum content of the solid polyaluminoxane composition and the (A) solution-like polyaluminoxane composition was determined by ICP emission spectrometry (ICP-AES) using ICPS (registered trademark) -8100 manufactured by Shimadzu Corporation. It asked by).
- the 1 H-NMR measurement of the polymethylaluminoxane composition is carried out using THF-d 8 as a heavy solvent. 1 H-NMR measurement was performed at a measurement temperature of 24 ° C. using an EX 270 NMR measurement apparatus manufactured by 270 MHz by Nippon Electronics Co., Ltd.
- An analytical sample of the solution-like polymethylaluminoxane composition was prepared by adding 0.5 ml of THF-d 8 to about 0.05 ml of solution-like polymethylaluminoxane composition.
- An analytical sample of the solid polymethylaluminoxane composition is prepared by adding 0.5 ml of THF-d 8 to 10 mg of the solution-like polymethylaluminoxane composition and then stirring for 2 hours at 25 ° C. The soluble part of was used. In addition, even when the undissolved component was contained, it provided to the analysis as it was.
- a methyl (Me) group peak derived from trimethylaluminum in the vicinity of -1.1 ppm is cut out from the baseline of the methyl (Me) group peak of polymethylaluminoxane, and its integral value I (trimethylaluminum-Me) is determined.
- Specific surface area of solid polyaluminoxane composition The specific surface area of the solid polyaluminoxane composition is determined by using nitrogen gas adsorption under liquid nitrogen temperature using BELSORP (registered trademark) -max manufactured by Nippon Bell Co., Ltd. as a measuring device. The adsorption and desorption isotherm was measured by the method. As an analysis method, the specific surface area was determined using the BET method.
- Electron Microscope Observation Platinum is deposited on the solid polyaluminoxane composition using an auto fine coater (JFC-1600) manufactured by JEOL Ltd., and then JEOL Ltd. The composition was observed (magnification: 200 ⁇ or 1000 ⁇ ) with a scanning electron microscope (JSM-6510 LV) manufactured by K.K.
- fouling rate The ratio of the amount X2 (g) of polyethylene particles attached to the test piece for evaluation of fouling to the total amount X1 (g) of polyethylene particles produced was determined as the fouling rate F according to the following equation.
- the density was measured according to JIS K7112, and the strands obtained at the time of MFR measurement were heat-treated at 100 ° C. for 1 hour and further left at room temperature for 1 hour, and then measured by the density gradient tube method.
- Tm Melting point
- the sample was heated to 230 ° C. and held for 10 minutes under a nitrogen atmosphere, and then cooled to 30 ° C. at 10 ° C./min. Subsequently, the sample was held at 30 ° C. for 1 minute in a nitrogen atmosphere, and then heated to 230 ° C. at 10 ° C./min.
- the melting point (Tm) was calculated from the peak of the crystal melting peak observed at this time.
- Tm Melting point of 4-methyl-1-pentene / 1-decene copolymer
- the Al concentration of all lots of a 20 wt% toluene solution of an Albemarle polymethylaluminoxane composition used in this test example was measured and found to be 3.00 mmol / mL (hereinafter referred to as “solution of preliminary experiment 1B” ), 3.04 mmol / mL (hereinafter referred to as “preliminary experiment 1 C solution”, 3.07 mmol / mL (hereinafter referred to as “preliminary experiment 1 D solution”), 3.15 mmol / mL (hereinafter referred to as “preliminary experiment 1 D solution”).
- solution of Experiment 1E The solution of Experiment 1E).
- Preliminary experiment 4 The sample prepared in preliminary experiment 3 was centrifuged at 2,000 G for 60 minutes using a centrifuge. A clear colorless gel-like precipitate was observed at the bottom of the centrifuge tube after centrifugation. The supernatant after centrifugation under a nitrogen atmosphere was carefully removed using a pipette to obtain a toluene solution of the centrifuged polymethylaluminoxane composition. The 1 H-NMR measurement was carried out, and the molar fraction of the methyl group derived from the trimethylaluminum moiety was determined to be 30.7 mol% with respect to the total mole number of methyl groups.
- the target substance was identified by the measurement result of 1 H-NMR.
- the target substance was identified by the measurement results of 1 H-NMR and GC-MS.
- the target substance was identified by the measurement result of FD-MS.
- the solvent was distilled off under reduced pressure, and then about 70 ml of dichloromethane was used to extract solubles from the residue.
- the resulting solution was concentrated, 50 ml of hexane was added, and the insoluble matter was removed by filtration.
- the solution was concentrated to about 10 ml and allowed to stand overnight at -30.degree.
- the precipitated powder was removed by filtration and washed with hexane to obtain 0.384 g of orange powder.
- the orange powder was dissolved by adding 5 ml of diethyl ether, and allowed to stand overnight at -30.degree.
- the precipitated powder was taken out by filtration and washed with hexane to obtain the desired product. Yield 0.220 g, 17% yield.
- the target substance was identified by the measurement result of 1 H-NMR.
- the mixture was stirred at 70 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reacted at 95 ° C. for 4 hours. After cooling to 60 ° C., the supernatant was removed by decantation.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 40 mL to obtain a solid polyaluminoxane composition.
- the solidification rate on an aluminum basis was 94.0%.
- the resulting solid polyaluminoxane composition was dried to determine its solubility in solvent.
- the solubility in n-hexane at 25 ° C. was 0.05 mol%
- the solubility in toluene was 0.15 mol%
- the solubility in tetrahydrofuran was 94.6 mol%.
- the mole fraction (mole fraction (3)) of the methyl group derived from the trimethylaluminum moiety to the total mole number of methyl group was 13.2 mole%.
- the aluminum content in the solid polyaluminoxane composition was 43.5 wt%.
- the specific surface area was 521 m 2 / g.
- Test Example A2 (Test Example D2)
- Test Example D2 After adding a toluene solution of Benzaldehyde in Test Example A1 and stirring for 30 minutes at 70 ° C., the temperature is raised to 105 ° C. at a temperature rising rate of 1.0 ° C./min and reaction is performed at 105 ° C. for 4 hours A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1.
- Test Example A3 (Test Example D3)
- Test Example A1 was used except that a toluene solution (17 mL) of Benzaldehyde (0.67 g, 6.3 mmol) was used instead of the toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol).
- a solid polyaluminoxane composition was obtained.
- the precipitated solid polyaluminoxane was washed twice with toluene (60 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 80 mL to obtain a solid polyaluminoxane composition.
- Test Example A6 (Test Example D6) Test Example A1 except that instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol) in Test Example A1, a toluene solution (17 mL) of Acetophenone (0.66 g, 5.5 mmol) was used. In the same manner as in the above, a solid polyaluminoxane composition was obtained.
- the precipitated solid polyaluminoxane was washed with toluene (60 mL) three times at 80 ° C., and then toluene was added to adjust the total volume to 102 mL, to obtain a solid polyaluminoxane composition.
- the onset of precipitation of the solid polyaluminoxane composition was observed during stirring at 70 ° C. after addition of Benzaldehyde.
- Test Example A9 (Test Example D23)
- Test Example A1 a test was conducted except that 4-fluorobenzaldehyde (0.78 g, 6.3 mmol) in toluene (17 mL) was used in place of Benzaldehyde (0.58 g, 5.5 mmol) in toluene (17 mL).
- a solid polyaluminoxane composition was obtained in the same manner as Example A1.
- the precipitated solid polyaluminoxane was washed with toluene (60 mL) three times at 80 ° C., and then toluene was added to adjust the total amount to 87 mL, to obtain a solid polyaluminoxane composition.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 100 mL to obtain a solid polyaluminoxane composition.
- Test Example D4 After adding 14 mL of toluene to the flask A and raising the temperature to 80 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Benzaldehyde (0.67 g, 6.3 mmol) was added over 30 minutes. After the addition, the mixture was stirred at 80 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reacted at 95 ° C. for 4 hours. After cooling to 60 ° C., the supernatant was removed by decantation.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 40 mL.
- the solidification rate on an aluminum basis was 98.7%.
- Test Example D5 After adding 14 mL of toluene to the flask A and raising the temperature to 95 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Benzaldehyde (0.67 g, 6.3 mmol) was added over 30 minutes, and after the addition, reaction was performed at 95 ° C. for 4 hours. Thereafter, in the same manner as in Test Example D4, a solid polyaluminoxane composition was obtained.
- Test Example D7 Test Example A1 except that instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol) in Test Example A1, a toluene solution (17 mL) of Acetophenone (0.76 g, 6.3 mmol) was used. In the same manner as in the above, a solid polyaluminoxane composition was obtained.
- Test Example D8 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Acetophenone (0.86 g, 7.1 mmol) was added over 30 minutes. After addition, the mixture was stirred at 50 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./minute, and reacted at 95 ° C. for 4 hours. Thereafter, in the same manner as in Test Example A1, a solid polyaluminoxane composition was obtained.
- Test Example D9 After adding 14 mL of toluene to the flask A and raising the temperature to 70 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Acetophenone (0.66 g, 5.5 mmol) was added over 30 minutes. After the addition, the mixture was stirred at 70 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reacted at 95 ° C. for 8 hours. After cooling to 60 ° C., the supernatant was removed by decantation.
- the precipitated solid polyaluminoxane was washed with toluene (45 mL) three times at 80 ° C., and then toluene was added to adjust the total volume to 40 mL, to obtain a solid polyaluminoxane composition.
- Test Example D10 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Acetophenone (0.76 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D12 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 1- (p-Tolyl) -ethanol (0.86 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D13 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), a toluene solution (16.8 mL) of 2-phenyl-2-propanol (0.74 g, 5.5 mmol) was used. A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that it was used.
- Test Example D15 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 1-phenylethyl alcohol (0.77 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- the precipitated solid polyaluminoxane was washed twice with toluene (90 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 200 mL to obtain a solid polyaluminoxane composition.
- Test Example D16 Since Test Example D16 is performed with the same stirring power as Test Example D15, the average shear stress of the whole reaction solution is small in Test Example D16. In Test Example D16, the difference in average particle size in Test Example D15 is considered to reflect the influence of stirring.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 19 mL to obtain a solid polyaluminoxane composition.
- Test Example D19 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Cyclohexyl Phenyl ketone (1.19 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 57 mL to obtain a solid polyaluminoxane composition.
- Test Example D21 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of p-nonylacetophenone (1.55 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D22 In Test Example A1, a test was conducted except that a toluene solution (17 mL) of p-Fluoroacetophenone (0.87 g, 6.3 mmol) was used instead of the toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol). A solid polyaluminoxane composition was obtained in the same manner as Example A1.
- Test Example D24 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 4-Fluorobenzyl alcohol (1.01 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D25 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of benzyl alcohol (0.68 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D26 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 4-methylbenzyl alcohol (0.77 g, 6.3 mmol) was added over 30 minutes. After the addition, a solid polyaluminoxane composition was obtained in the same manner as in Test Example D8.
- Test Example D27 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 3-Methylbenzyl alcohol (0.77 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D28 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 2-methylbenzyl alcohol (0.77 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D30 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 1-phenyl-1-propanol (0.86 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D31 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 1-phenyl-1-pentanol (1.03 g, 6.3 mmol) was added over 30 minutes. Thereafter, in the same manner as in Test Example D8, a solid polyaluminoxane composition was obtained.
- Test Example D32 Test Example A1 except that in Test Example A1, a solution of Geraniol (0.97 g, 6.3 mmol) in toluene (17 mL) was used instead of Benzaldehyde (0.58 g, 5.5 mmol) in toluene. In the same manner as in the above, a solid polyaluminoxane composition was obtained.
- Test Example D33 Test Example A1 except that in Test Example A1, a solution of Farnesol (1.40 g, 6.3 mmol) in toluene (17 mL) was used instead of Benzaldehyde (0.58 g, 5.5 mmol) in toluene. In the same manner as in the above, a solid polyaluminoxane composition was obtained.
- Test Example D34 After adding 14 mL of toluene to the flask A and raising the temperature to 70 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Phytol (1.87 g, 6.3 mmol) was added over 30 minutes. After the addition, the mixture was stirred at 70 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reacted at 95 ° C. for 4 hours. After cooling to 60 ° C., heptane (90 mL) was added and the supernatant was decanted off.
- the precipitated solid polyaluminoxane was washed with heptane (45 mL) twice at 60 ° C. and once at room temperature, and then heptane was added to adjust the total volume to 40 mL to obtain a solid polyaluminoxane composition.
- Test Example D35 After adding 14 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of 1-phenylethyl alcohol (0.77 g, 6.3 mmol) was added over 30 minutes. After addition, the mixture was stirred at 50 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and heated at 95 ° C.
- the solidification rate after 2 hours from the start of 1-phenylethyl alcohol addition is 52%, the solidification rate after 3 hours is 77%, the solidification rate after 4 hours is 86%, and the solidification rate after 6 hours is 92% was.
- Test Example D36 The reaction tracking was performed by changing the heating temperature of 95 ° C. of Test Example D35 to 60 ° C.
- the solidification rate after 2 hours from the start of 1-phenylethyl alcohol addition was 16%
- the solidification rate after 4 hours was 26%
- the solidification rate after 8 hours was 54%.
- Test Example D37 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.43 g, 3.2 mmol) / 1-phenyl-1-pentanol ( A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 0.52 g (3.2 mmol) was used.
- Test Example D38 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / 1-phenyl-1-pentanol ( A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 0.26 g, 1.6 mmol) was used.
- Test Example D39 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.74 g, 5.5 mmol) / 1-phenyl-1-pentanol ( A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 0.16 g, 0.8 mmol) was used.
- Test Example D40 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / Benzyl alcohol (0.17 g, 1) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 6 mmol) was used.
- Test Example D41 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / 1-phenyl-1-propanol ( A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 0.21 g, 1.6 mmol) was used.
- Test Example D42 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / DL-1-phenylethyl alcohol (0%) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that 19 g (1.6 mmol) of a toluene solution (17 mL) was used.
- Test Example D43 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / Benzaldehyde (0.17 g, A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 6 mmol) was used.
- Test Example D44 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / 4-Methylbenzyl alcohol (0.19 g) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 1.6 mmol) was used.
- Test Example D45 In Test Example A1, instead of a toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-phenyl-2-propanol (0.64 g, 4.7 mmol) / Acetophenone (0.19 g, A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 6 mmol) was used.
- Test Example D46 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.64 g, 4.7 mmol) / 4-Methylbenzaldehyde (0.19 g) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 1.6 mmol) was used.
- Test Example D47 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 2-Phenyl-2-propanol (0.57 g, 4.2 mmol) / 4-Methylbenzaldehyde (0.25 g, A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 2.1 mmol) was used.
- Test Example D48 In Test Example A1, instead of a toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), Benzyl alcohol (0.34 g, 3.2 mmol) / 4-Methylbenzaldehyde (0.38 g, 3.2 mmol) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) was used.
- Test Example D49 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), DL-1-phenylethyl alcohol (0.51 g, 4.2 mmol) / 4-Methylbenzaldehyde (0.25 g, 2) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that a toluene solution (17 mL) of 1 mmol) was used.
- Test Example D50 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), 4-Methylbenzyl alcohol (0.51 g, 4.2 mmol) / 4-Methylbenzaldehyde (0.25 g, 2.1 mmol) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that the toluene solution (17 mL) of (a) was used.
- Test Example D51 After adding 14 mL of toluene to the flask A and raising the temperature to 70 ° C., the solution of Test Example A1 was added. Subsequently, a toluene solution (17 mL) of Acetophenone (0.52 g, 4.4 mmol) / 4-Methylbenzaldehyde (0.13 g, 1.1 mmol) was added over 30 minutes. After addition, the mixture was stirred at 70 ° C. for 60 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reacted at 95 ° C. for 4 hours. Thereafter, in the same manner as in Test Example A1, a solid polyaluminoxane composition was obtained.
- Test Example D52 In Test Example A1, instead of toluene solution (17 mL) of Benzaldehyde (0.58 g, 5.5 mmol), toluene of Acetophenone (0.49 g, 4.1 mmol) / 4-Methylbenzaldehyde (0.16 g, 1.4 mmol) A solid polyaluminoxane composition was obtained in the same manner as in Test Example A1 except that the solution (17 mL) was used.
- Test Example D53 After adding 22 mL of toluene to the flask A and raising the temperature to 50 ° C., the solution of preliminary experiment 1E (20 mL, 63 mmol) was added. Subsequently, a toluene solution (14 mL) of (p-Methylphenyl) methanethiol (1.31 g, 9.5 mmol) was added over 30 minutes. After addition, the mixture was stirred at 50 ° C. for 30 minutes, heated to 95 ° C. at a temperature rising rate of 1.0 ° C./minute, and reacted at 95 ° C. for 4 hours.
- the precipitated solid polyaluminoxane was cooled to 50 ° C., heptane (100 mL) was added, and the supernatant was removed by decantation. Subsequently, after washing with heptane (100 mL) twice at room temperature, heptane was added to adjust the total volume to 50 mL to obtain a solid polyaluminoxane composition.
- Test Example D54 The procedure of Test Example A22 was repeated except that the toluene solution (21 mL, 63 mmol) of the polymethylaluminoxane composition prepared in Preliminary Experiment 4 was used instead of the solution of Preliminary Experiment 1A (21 mL, 63 mmol). Thus, a solid polyaluminoxane composition was obtained.
- the mixture was stirred at 50 ° C. for 30 minutes, heated to 100 ° C. at a temperature rising rate of 1.0 ° C./minute, and reacted at 100 ° C. for 4 hours. After cooling to 60 ° C., the supernatant was removed by a filter.
- the precipitated solid polyaluminoxane was washed twice with toluene (25 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 40 mL to obtain a solid polyaluminoxane composition.
- the resulting solid polyaluminoxane composition was dried to determine its solubility in solvent.
- the solubility in n-hexane at 25 ° C. was 0.04 mol%
- the solubility in toluene was 0.27 mol%
- the solubility in tetrahydrofuran was> 99.9 mol%.
- the mole fraction of methyl groups derived from the trimethylaluminum moiety relative to the total number of moles of methyl groups was 9.5 mole%.
- the aluminum content in the solid polyaluminoxane composition was 41.3 wt%.
- the specific surface area was 230 m 2 / g. The observation was made by SEM. The results are shown in FIG.
- the mixture was heated at 100 ° C. for 4 hours to precipitate a solid aluminoxane. After cooling the solution to below 30 ° C., the supernatant was removed by decantation. The precipitated solid polyaluminoxane was washed with toluene (60 mL) four times at room temperature, and then toluene was added to adjust the total volume to 75 mL.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and twice at room temperature, and then toluene was added to adjust the total volume to 45 mL to obtain a solid polyaluminoxane composition.
- the observation was made by SEM. The results are shown in FIG.
- the precipitated solid polyaluminoxane was washed twice with toluene (45 mL) twice at 60 ° C. and once at room temperature, and then toluene was added to adjust the total volume to 50 mL to obtain a solid polyaluminoxane composition.
- Test Example a5 (Test Example d4)
- a solid polyaluminoxane was prepared based on the method described in Example (Experiment 109) of JP-A-7-300486 using the solution of Preliminary Experiment 1A, and an amorphous solid containing a large amount of gel-like components was prepared. was gotten.
- the resulting solid polyaluminoxane composition was dried to determine its solubility in solvent.
- the solubility in n-hexane at 25 ° C. was 0.56 mol%
- the solubility in toluene was 33.6 mol%
- the solubility in tetrahydrofuran was> 99.9 mol%.
- Test Example d1 After 30 mL of toluene was added to the flask A and the temperature was raised to 70 ° C., the solution of Test Example A1 was added. After stirring at 70 ° C. for 60 minutes, the temperature was raised to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reaction was performed at 95 ° C. for 4 hours, but no solid polyaluminoxane composition was precipitated.
- Test Example d2 After 30 mL of toluene was added to the flask A and the temperature was raised to 70 ° C., the solution of Test Example D17 was added. After stirring at 70 ° C. for 60 minutes, the temperature was raised to 95 ° C. at a temperature rising rate of 1.0 ° C./min, and reaction was performed at 95 ° C. for 4 hours, but no solid polyaluminoxane composition was precipitated.
- the Ti concentration in the filtrate was below the limit of quantification (less than 0.021 mmol / L). From this, the amount of Ti not supported on the solid polyaluminoxane composition was less than 0.44 ⁇ mol, that is, less than 1.4 mol% of Ti used in the reaction. Moreover, the Al concentration in the filtrate was below the limit of quantification (less than 0.19 mmol / L). From this, Al eluted from the solid polyaluminoxane composition was less than 4.0 ⁇ mol, that is, less than 0.3 mol% of Al used in the reaction.
- the particle size distribution of the prepared olefin polymerization (multimerization) catalyst (solid component) was measured.
- the median diameter D50 in volumetric statistics was 29.0 ⁇ m, and the uniformity was 0.214.
- the Ti concentration in the filtrate was 0.044 mmol / L. From this, the amount of Ti not supported on the solid polyaluminoxane composition was 0.93 ⁇ mol, that is, 2.9 mol% of Ti used for the reaction. Moreover, Al concentration in the filtrate was 1.7 mmol / L. From this, Al eluted from the solid polyaluminoxane composition was 36 ⁇ mol, that is, 2.3 mol% of Al used for the reaction.
- the particle size distribution of the prepared particles (solid component) was measured.
- the median diameter D50 in volumetric statistics was 57.3 ⁇ m, and the uniformity was 0.378.
- the filtrate was obtained by the same method as in.
- test examples b1 to b4 unsupported transition metal compounds and aluminum were observed. That is, leaching of the main catalyst component and the cocatalyst component was observed from the solid polyaluminoxane composition. Also, a significant increase in the average particle size D50 was observed. The phenomenon is presumed to be caused by melting of particles by contact with transition metal compounds and formation of huge lumps by bonding of particles.
- the filtrate was obtained by the same method as in.
- the Ti concentration in the filtrate was 0.055 mmol / L. From this, the amount of Ti not supported on the solid polyaluminoxane composition was 1.2 ⁇ mol, that is, 3.6 mol% of Ti used for the reaction. In addition, the Al concentration in the filtrate was 5.5 mmol / L. From this, Al eluted from the solid polyaluminoxane composition was 117 ⁇ mol, that is, 3.7 mol% of Al used for the reaction.
- the filtrate was obtained by the same method as in.
- the filtrate was obtained by the same method as in.
- test examples b5 to b8 unsupported transition metal compounds and aluminum were observed. That is, leaching of the main catalyst component and the cocatalyst component was observed from the solid polyaluminoxane composition.
- the Zr concentration in the filtrate was below the limit of quantification (less than 0.0074 mmol / L). From this, the amount of Zr not supported on the solid polyaluminoxane composition was less than 0.16 ⁇ mol, that is, less than 0.5 mol% of the Zr used for the reaction. Moreover, the Al concentration in the filtrate was below the limit of quantification (less than 0.13 mmol / L). From this, Al eluted from the solid polyaluminoxane composition was less than 2.8 ⁇ mol, that is, less than 0.1 mol% of Al used in the reaction.
- the Zr concentration in the filtrate was equal to or less than the quantitative limit (less than 0.0037 mmol / L). From this, the amount of Zr not supported on the solid polyaluminoxane composition was less than 0.16 ⁇ mol, that is, less than 0.5 mol% of the Zr used for the reaction.
- Test examples b9 to b12 an unsupported transition metal compound and aluminum were observed. That is, leaching of the main catalyst component and the cocatalyst component was observed from the solid polyaluminoxane composition.
- the Hf concentration in the filtrate was below the limit of quantification (less than 0.019 mmol / L). From this, Hf not supported on the solid polyaluminoxane composition was less than 0.41 ⁇ mol, that is, less than 1.3 mol% of Hf used in the reaction. Moreover, the Al concentration in the filtrate was below the limit of quantification (less than 0.13 mmol / L). From this, Al eluted from the solid polyaluminoxane composition was less than 2.8 ⁇ mol, that is, less than 0.04 mol% of Al used in the reaction.
- the Zr concentration in the filtrate was 0.030 mmol / L. From this, the amount of Zr not supported on the solid polyaluminoxane composition was 1.3 ⁇ mol, that is, 2.0 mol% of the Zr used for the reaction. Further, the Al concentration in the filtrate was 1.8 mmol / L. From this, Al eluted from the solid polyaluminoxane composition was 78 ⁇ mol, that is, 0.6 mol% of Al used for the reaction.
- Test Example B23-2 Preparation of Prepolymerization Catalyst Component After the solid catalyst component slurry obtained in Test Example B23-1 was cooled to 10 ° C., diisobutylaluminum hydride (DiBAl-H) (2.0 mmol) was added, Supply of ethylene (flow rate 0.9 L / hr) was started. After raising the temperature in the system to 35 ° C., ethylene was supplied for 3 hours while adjusting to 33 to 37 ° C. Next, the inside of the system was replaced with nitrogen, and the system was allowed to stand to precipitate solid components, and then the supernatant was removed and washed three times with hexane to make the total amount 50 ml.
- DiBAl-H diisobutylaluminum hydride
- the Zr concentration in the supernatant was 0.012 mmol / L. From this, Zr eluted from the solid catalyst component was 0.62 ⁇ mol, that is, 1.3 mol% of Zr used for the reaction.
- a hexane solution (concentration 10 g / L, 4.0 mL, 40 mg) of Chemistat 2500 (manufactured by Sanyo Chemical Industries, Ltd.) is added to adjust to 33 to 37 ° C. While being in contact for 2 hours. The solid component was allowed to settle to settle, and then washed three times with hexane to prepare a prepolymerized catalyst component.
- Test Example b17-2 Preparation of Prepolymerized Catalyst Component A prepolymerized catalyst component was prepared under the same conditions as Example Test B23-2 except that the solid catalyst component slurry obtained in Test Example b17-1 was used. did.
- the Zr concentration in the supernatant was 0.24 mmol / L. From this, Zr eluted from the solid catalyst component was 12 ⁇ mol, that is, 21.4 mol% of Zr used for the reaction.
- Test Example B24 A stirring rod was attached to a sufficiently nitrogen-substituted 100 mL three-necked flask, and a toluene slurry (11.2 mL) of the solid polyaluminoxane composition obtained in Test Example A10 was added thereto. 18.8 mL of dehydrated toluene was added thereto at room temperature, and the temperature was raised to 35 ° C. while stirring.
- a supported catalyst was prepared in the same manner as in Test Example B24, except that the toluene slurry (15.6 mL) of the solid polyaluminoxane composition prepared in Test example a3 and 46.5 mg of the metallocene complex were used. 0.242 mg of zirconium was detected from 19.88 g of the light purple supernatant liquid, and the concentration of zirconium in the liquid was 12.2 ppm. Also, 1.125 g of a supported catalyst was obtained, and the zirconium concentration in the supported catalyst was 0.45 wt%. Mineral oil was added to the obtained powder to obtain a 10.0 wt% slurry.
- Test Example B 25-1 Preparation of solid catalyst component 32 mL of purified decane and the solid obtained in Test Example A 15 in a nitrogen stream in a fully nitrogen-substituted 100 mL three-necked flask at 30 ° C.
- the aluminum polyaluminoxane composition was charged in 8.2 mmol in terms of aluminum to obtain a suspension.
- the transition metal compounds described in preliminary experiment 5 (8-octamethylfluoren-12′-yl- (2- (adamantan-1-yl) -8-methyl-3,3b, 4,5,5, 6,7,7a, 8-octahydrocyclopenta [a] indene)) zirconium dichloride) 27.9 mg (0.033 mmol) was added as a 3.2 mmol / L toluene solution with stirring. After 1 hour, the stirring was stopped, and the slurry was washed three times with 50 mL of decane by a decantation method to obtain a slurry liquid (Zr loading ratio 100%).
- Test Example b19-1 Preparation of Solid Catalyst Component 32 mL of purified decane and the solid obtained in Test Example a3 in a nitrogen stream in a fully nitrogen-substituted 100 mL three-necked flask at 30 ° C.
- the aluminum polyaluminoxane composition was charged with 7.5 mmol in terms of aluminum to obtain a suspension.
- 25.5 mg (0.030 mmol) of the transition metal compound described in preliminary experiment 5 was added as a 4.3 mmol / L toluene solution with stirring. After 1 hour, the stirring was stopped and the slurry was washed three times with 50 mL of decane by a decantation method to obtain a slurry liquid (Zr loading ratio 97%).
- Test Example b19-2 Preparation of Prepolymerization Catalyst Component A slurry solution prepared in Test Example b19-1 and 2.1 mL of a decane solution of diisobutylaluminum hydride (1.0 mmol / mL in terms of aluminum atom) were used. In the same manner as in Test Example B25-2, a decane slurry (5 g / L, 0.33 mmol-Zr / L) of a prepolymerized catalyst component was prepared.
- cyclopentadienyl octamethyloctahydrodibenzofluorenyl
- IV dimethyl in heptane
- a decane solution of triisobutylaluminum (TIBAL) (concentration 1.0 mmol / mL, 0.25 mL, 0.25 mmol) was added, and the mixture was stirred at normal temperature for 2 hours to prepare a solid catalyst component slurry.
- TIBAL triisobutylaluminum
- the obtained supernatant (10 mL) was analyzed by ICP-AES.
- the Zr concentration in the supernatant was below the lower limit of quantification (less than 0.001 mg / mL).
- the solid catalyst component slurry was prepared by adding mL, 3.4 mL, 7.5 mg) and stirring at normal temperature for 1 hour. The resulting supernatant was analyzed in the same manner as in Test Example B26. The results are shown in Table 11.
- a solid catalyst component slurry was prepared by adding (concentration 2.9 mg / mL, 3.6 mL, 10.5 mg) and stirring at normal temperature for 1 hour. The resulting supernatant was analyzed in the same manner as in Test Example B26. The results are shown in Table 10.
- the Ti concentration in the supernatant was below the limit of quantification (less than 0.001 mg / mL).
- the Zr compound bis ((2-oxoyl-3- (3,5-bis (1,1-dimethylethyl) phenyl)-(5- (1,1) described in WO 2007/136496) -Dimethylethyl) phenyl)-(4- (1,1-dimethylethyl) -2-phenoxy) -propane-1,3-diylzirconium (IV) dichloride) in toluene (concentration 2.9 mg / mL);
- the solid catalyst component slurry was prepared by adding 7 mL, 13.7 mg) and stirring at room temperature for 1 hour, and the obtained supernatant was analyzed in the same manner as in Test Example B 26. The results are shown in Table 10. .
- cyclopentadienyl octamethyloctahydrodibenzofluorenyl
- IV zirconium
- a toluene slurry prepared by diluting the catalyst for olefin multimerization (3.0 ⁇ mol) prepared in Test Example B1 with 3 mL of toluene was added to the reactor, followed by pressurization with ethylene (partial pressure 4.5 MPa-G) to initiate a reaction.
- the reaction was carried out at 45-52 ° C. for 60 minutes while feeding ethylene at the same pressure, and then the reaction was stopped by adding a small amount of methanol. After completion of the reaction, the reaction mixture was washed with 0.1 N aqueous hydrochloric acid and pure water, and the supernatant component of the reaction mixture was analyzed by gas chromatography.
- the polyethylene particle was collect
- the polyethylene particles attached to the test piece were separately collected.
- the recovered polyethylene particles were each dried under reduced pressure at 80 ° C. for 1 hour, and then weighed to determine the amount of production.
- the selectivity of 1-hexene is 82%
- the selectivity of decenes is 12%
- the selectivity of polyethylene is 6%
- the catalytic activity calculated from the total amount of these products is 22 kg-produced
- the substance was (mmol-Ti ⁇ h).
- the fouling rate was less than 1%.
- Test Example C2 A multimerization reaction was performed in the same manner as in Test Example C1 except that the catalyst for olefin multimerization prepared in Test Example B3 was used. The results are shown in Table 11.
- the particle size distribution of by-product polyethylene was measured.
- the median diameter D50 in volumetric statistics was 231 ⁇ m, and the uniformity was 0.178.
- Test Example C3 A multimerization reaction was performed in the same manner as in Test Example C1 except that the catalyst for olefin multimerization prepared in Test Example B4 was used. The results are shown in Table 11.
- Test Example C4 A multimerization reaction was performed in the same manner as in Test Example C1 except that the catalyst for olefin multimerization (2.0 ⁇ mol) prepared in Test Example B6 was used. The results are shown in Table 11.
- Test Example C5 A multimerization reaction was performed in the same manner as in Test Example C1 except that the catalyst for olefin multimerization (2.0 ⁇ mol) prepared in Test Example B9 was used. The results are shown in Table 11.
- Test Example c1 A multimerization reaction was performed in the same manner as in Test Example C1 except that the toluene slurry of the catalyst for olefin multimerization prepared in Test example b1 was used.
- the selectivity of 1-hexene is 81%
- the selectivity of decenes is 11%
- the selectivity of polyethylene is 8%
- the catalytic activity calculated from the total amount of these products is 10 kg-produced
- the substance was (mmol-Ti ⁇ h).
- the fouling rate was 7%.
- the particle size distribution of by-product polyethylene was measured. Uniformity was not determined because it contained polyethylene larger than the detection limit (1408 ⁇ m).
- Test Example c2 A multimerization reaction was performed in the same manner as in Test Example C1 except that the toluene slurry of the catalyst for olefin multimerization prepared in Test example b2 was used. The results are shown in Table 11. The particle size distribution of by-product polyethylene was measured. Uniformity was not determined because it contained polyethylene larger than the detection limit (1408 ⁇ m).
- Test Example c3 A multimerization reaction was performed in the same manner as in Test Example C1 except that the toluene slurry of the catalyst for olefin multimerization prepared in Test example b3 was used. The results are shown in Table 11. The particle size distribution of by-product polyethylene was measured. Uniformity was not determined because it contained polyethylene larger than the detection limit (1408 ⁇ m).
- Test Example c4 A multimerization reaction was carried out in the same manner as in Test Example C1 except that the olefin multimerization catalyst (2.0 ⁇ mol) prepared in Test example b5 was used. The results are shown in Table 11.
- Test Example c5 A multimerization reaction was performed in the same manner as in Test Example C1 except that the catalyst for olefin multimerization (2.0 ⁇ mol) prepared in Test Example b7 was used. The results are shown in Table 11. The particle size distribution of by-product polyethylene was measured. Uniformity was not determined because it contained polyethylene larger than the detection limit (1408 ⁇ m).
- the polymer was found to have a melt flow rate (MFR) 0.14 g / 10 min and a density of 927 kg / m 3, the bulk density was 410 kg / m 3.
- the polymer was found to have a melt flow rate (MFR) 0.14 g / 10 min and a density of 927 kg / m 3, the bulk density was 340 kg / m 3.
- Test Example c6 The bulk density of Test Example c6 was lower than that of Test Example C6.
- Test Example C7 A magnetic stirrer was placed in a 50 mL branched flask sufficiently purged with nitrogen, and the 10.0 wt% supported catalyst slurry (0.163 g) prepared in Test Example B24 was placed in this. Subsequently, a hexane solution of triisobutylaluminum (aluminum concentration 1.0 mol / L, 1.5 mL) and 5.0 mL of dehydrated hexane were added thereto, and the total volume of the obtained mixture was fully replaced with nitrogen by 3,400 mL Was introduced into a stainless steel autoclave. Thereafter, 750 g of liquid propylene and 0.10 NL of hydrogen were charged, polymerization was carried out at 70 ° C.
- the powdery polymer obtained was dried under reduced pressure at 80 ° C. for 10 hours.
- the yield of the polymer was 141.8 g, and the bulk density of the powder was 0.44 g / mL. Moreover, it was 5.32 g as a result of passing a powder through a 2 mm mesh sieve, and measuring the weight of the residue on the sieve.
- the MFR was 3.0 g / 10 min
- the melting point measured by DSC was 146 ° C.
- the polymerization activity per hour was 13,050 g / g-cat.
- Test Example C8 Polymerization and drying of the polymer were carried out in the same manner as in Test Example C7 except that 0.143 g of the 10.0 wt% supported catalyst slurry prepared in Test example B24 was changed to 0.20 NL in the hydrogen charge. . No deposits were observed on the stirring shaft of the polymerization vessel or inside the polymerization vessel, and 243.5 g of a powdery polymer was obtained. The bulk density of the powder was 0.45 g / mL, and the weight of the residue on a 2 mm mesh sieve was 2.48 g.
- Test Example c7 Polymerization and drying of the polymer were carried out in the same manner as in Test Example C7 except that 0.201 g of the 10.0 wt% supported catalyst slurry prepared in Test example b18 was used. The powder agglomerated around the stirring axis of the polymerization vessel to obtain 186.7 g of a large lump of polymer. The bulk density of the polymer and the weight of the residue on a 2 mm mesh sieve could not be measured due to the bulk polymer.
- Test Example c8 Polymerization and drying of the polymer were carried out in the same manner as in Test Example C7 except that 0.146 g of the 10.0 wt% supported catalyst slurry prepared in Test example b18 was changed to 0.20 NL in the hydrogen charge. .
- the powder agglomerated around the stirring axis of the polymerization vessel to obtain 177.3 g of a large lump of polymer.
- the bulk density of the polymer and the weight of the residue on a 2 mm mesh sieve could not be measured due to the bulk polymer.
- This polymer has an intrinsic viscosity [ ⁇ ] of 1.76 dL / g, a Tm of 232.8 ° C., a bulk density of 0.437 g / mL, and a solvent-soluble content (SP) of 0.13% by weight.
- Test Example c9 The polymerization reaction was carried out under the same conditions as in Test Example C9 except that the prepolymerization catalyst component prepared in Test example b19-2 was used, to obtain a polymer with a yield of 150.2 g.
- Test Example c10 The polymerization reaction was carried out under the same conditions as in Test Example C10, except that the prepolymerization catalyst component prepared in Test example b19-2 was used, to obtain a polymer with a yield of 137.4 g.
- test examples c9 and c10 the bulk density of the olefin polymer was reduced as compared to the test examples C9 and C10.
- the polymer was recovered by filtration and dried at 80 ° C. under reduced pressure for 10 hours to obtain 51.3 g of an ethylene polymer.
- the bulk density of the obtained polymer was 0.36 g / mL.
- Test Example C12 Prepared in the same manner as in Test Example C11 except that the solid catalyst component (solid content 15 mg) obtained in B27 was added instead of the solid catalyst component obtained in B26, and the temperature in the system was raised to 80 ° C. did. Then, a polymerization reaction was performed for 90 minutes under conditions of a total pressure of 0.80 MPaG and 80 ° C. by continuously introducing an ethylene-hydrogen mixed gas having a hydrogen concentration of 0.2%. The polymer was recovered by filtration and dried at 80 ° C. for 10 hours under reduced pressure to obtain 58.1 g of an ethylene polymer. The bulk density of the obtained polymer was 0.40 g / mL.
- Test Example C13 Prepared in the same manner as in Test Example C11 except that the solid catalyst component obtained in B28 (5 mg of solid content) was added instead of the solid catalyst component obtained in B26, and the temperature in the system was raised to 80 ° C. did. Then, a polymerization reaction was performed for 120 minutes under conditions of a total pressure of 0.80 MPaG and 80 ° C. by continuously introducing an ethylene-hydrogen mixed gas having a hydrogen concentration of 0.2%. The polymer was recovered by filtration and dried at 80 ° C. under reduced pressure for 10 hours to obtain 26.1 g of an ethylene polymer. The bulk density of the obtained polymer was 0.33 g / mL.
- Test Example c11 Prepared in the same manner as in Test Example C11 except that the solid catalyst component (solid content: 16 mg) obtained in b20 was added instead of the solid catalyst component obtained in B26, and the temperature in the system was raised to 75 ° C. did. Then, a polymerization reaction was performed for 60 minutes under conditions of a total pressure of 0.65 MPaG and 75 ° C. by continuously introducing an ethylene-hydrogen mixed gas having a hydrogen concentration of 1.25%. The polymer was recovered by filtration and dried at 80 ° C. under reduced pressure for 10 hours to obtain 59.0 g of an ethylene polymer. The bulk density of the obtained polymer was 0.17 g / mL.
- Test Example c11 the bulk density of the olefin polymer was lower than in Test Examples C11 to C13.
- the reaction was carried out at 45-52 ° C. for 60 minutes while feeding ethylene at the same pressure, and then the reaction was stopped by adding a small amount of methanol.
- the produced by-product polyethylene was in the form of fine particles, and had no adhesion to the autoclave.
- the present invention is particularly useful in the field of production of olefin multimers and olefin polymers and is extremely valuable industrially.
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Abstract
Description
以下の方法(i)により測定した、25℃におけるn-ヘキサンに対する溶解度が0.50モル%未満であり、
以下の方法(ii)により測定した、25℃におけるトルエンに対する溶解度が1.0モル%未満であり、かつ
以下の方法(iii)により測定した、テトラヒドロフラン-d8可溶部における、該ポリアルキルアルミノキサン部位に由来するアルキル基および該トリアルキルアルミニウム部位に由来するアルキル基の合計のモル数に対する該トリアルキルアルミニウム部位に由来するアルキル基のモル分率が13モル%以上である。
溶解度は、25℃に保持された50mLのn-ヘキサンに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてろ過により、ろ液と残渣に分離して、ろ液中のアルミニウム濃度を、ICP発光分光分析法(ICP-AES)を用いて測定し、固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対するろ液中に存在するアルミニウム原子の割合として求める。
溶解度は、n-ヘキサンの代わりにトルエンを用いた以外は、前記方法(i)と同様の方法により求める。
モル分率は、固体状ポリアルミノキサン組成物10mgに0.5mLのテトラヒドロフラン(THF)-d8(重溶媒)を加え、その後25℃で2時間の攪拌を行い、該THFへの可溶部を、測定温度24℃の条件下で、1H-NMR測定を用いて求める。
溶解度は、n-ヘキサンの代わりにテトラヒドロフランを用いた以外は、前記方法(i)と同様の方法により求める。
(式中、Mは周期律表第3族~第10族から選ばれる遷移金属原子を示し、R31、R32、R33およびR34は、互いに同一でも異なっていてもよく、シクロペンタジエニル骨格を有する基、アルキル、シクロアルキル、アリール、アラルキル、アルコキシ、アリーロキシ、ハロゲン原子、アルキルシリル、アルキルアミド、アルキルイミド、-SO3Rまたは水素原子を示す。)
本発明のオレフィン重合体の製造方法は、本発明のオレフィン類の重合触媒の存在下にて、炭素原子数2~20のα-オレフィン、炭素原子数3~20の環状オレフィンおよび炭素原子数4~20のジエン化合物から選ばれる1種以上のオレフィンを重合する工程を含む。
加熱条件下で、該溶液状ポリアルミノキサン組成物(A)中に含まれるアルミニウム-炭素結合を有する化合物と、該有機化合物(B)を反応させて、固体状ポリアルミノキサン組成物を析出させる工程を含む。
本発明の固体状ポリアルミノキサン組成物は、ポリアルキルアルミノキサンおよびトリアルキルアルミニウムを含有し、好ましくは、オレフィン多量体、もしくはオレフィン重合体の製造用触媒に対する助触媒性能が優れるとの理由から、下記一般式(1)で表される構成単位を含むポリアルキルアルミノキサン(本発明において、『下記一般式(1)で表される構成単位を含むポリアルミノキサン』とも称す)およびトリメチルアルミニウムを含有し、より好ましくは、ポリメチルアルミノキサンおよびトリメチルアルミニウムを含有する。なお、本発明において、ポリメチルアルミノキサンおよびトリメチルアルミニウムを含有する固体状ポリアルミノキサン組成物を、『固体状ポリメチルアルミノキサン組成物』とも称す。
(a)前記一般式(1)で表される構成単位のみからなるもの、
(b)前記一般式(2)において、R1が1種類のみで表される構成単位のみからなるもの、
(c)前記一般式(2)において、R1が2種類以上で表される構成単位からなるもの、
(d)前記一般式(1)で表される構成単位と前記一般式(2)で表される構成単位の双方を含むもの(R1が1種類若しくは2種類以上のいずれも含む)、の態様を取るものが一般的に考えられる。
溶解度は、25℃に保持された50mLのn-ヘキサンに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてろ過により、ろ液と残渣に分離して、ろ液中のアルミニウム濃度を、ICP発光分光分析法(ICP-AES)を用いて測定し、固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対するろ液中に存在するアルミニウム原子の割合として求める。
溶解度は、n-ヘキサンの代わりにトルエンを用いた以外は、前記方法(i)と同様の方法により求める。具体的には、溶解度は、25℃に保持された50mLのトルエンに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてろ過により、ろ液と残渣に分離して、ろ液中のアルミニウム濃度を、ICP発光分光分析法(ICP-AES)を用いて測定し、固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対するろ液中に存在するアルミニウム原子の割合として求める。
モル分率は、固体状ポリアルミノキサン組成物10mgに0.5mLのテトラヒドロフラン(THF)-d8(重溶媒)を加え、その後25℃で2時間の攪拌を行い、該THFへの可溶部を、測定温度24℃の条件下で、1H-NMR測定を用いて求める。
溶解度は、n-ヘキサンの代わりにテトラヒドロフランを用いた以外は、前記方法(i)と同様の方法により求める。具体的には、該溶解度は、25℃に保持された50mLのテトラヒドロフランに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてろ過により、ろ液と残渣に分離して、ろ液中のアルミニウム濃度を、ICP発光分光分析法(ICP-AES)を用いて測定し、固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対するろ液中に存在するアルミニウム原子の割合として求める。
ここで、Xiは粒子iのヒストグラム値、D50は体積基準のメジアン径、Diは粒子iの体積基準径を示す。該指標では値が大きくなるほど分布が広いことを示す。
本発明の固体状ポリアルミノキサン組成物の製造方法を具体的に説明するが、本発明の効果を奏する限り、これらに限定されるものではない。
(A)ポリアルキルアルミノキサン、トリアルキルアルミニウムおよび炭化水素溶媒を含む溶液状ポリアルミノキサン組成物と、(B)周期律表第15~17族の元素を含む少なくとも1種の有機化合物(以下、『(B)有機化合物』とも称す)を接触させる工程と、
加熱条件下で、該溶液状ポリアルミノキサン組成物(A)中に含まれるアルミニウム-炭素結合を有する化合物と、該(B)有機化合物を反応させて、固体状ポリアルミノキサン組成物を析出させる工程を含んで得られることが好ましい。
(A)溶液状ポリアルミノキサン組成物は、ポリアルキルアルミノキサン、好ましくは一般式(3)および/または前記一般式(2)で表される構成単位を含むポリアルキルアルミノキサン、より好ましくは一般式(3)で表される構成単位を含むポリアルキルアルミノキサン、さらに好ましくはポリメチルアルミノキサンと、トリアルキルアルミニウム、好ましくはトリメチルアルミニウムと、炭化水素溶媒を含有する。
(B)周期律表第15~17族の元素を含む少なくとも1種の有機化合物は、該組成物(A)中のポリアルキルアルミノキサン、およびトリメチルアルミニウムなどのトリアルキルアルミニウムなどの、該組成物(A)中に含まれるアルミニウム-炭素結合を有する化合物と反応し、アルミニウムと第15~17族の元素間に結合を形成できる化合物であれば特に制限されないが、アルキルアルミニウム化合物との反応性が高い化合物が好ましい。また、(B)有機化合物は、周期律表第15~17族の元素を2種以上含んでいても良く、同元素を2元素以上含んでいても良い。なお、該有機化合物は、前記に記載のポリアルキルアルミノキサンと異なる。
R2がアラルキルとしては、その炭素数が7~21であることがさらに好ましく、フェニルアセトアルデヒド、3-フェニルプロピオンアルデヒド等が挙げられる。
該製法において、固体状ポリアルミノキサン組成物は、(A)溶液状ポリアルミノキサン組成物と、(B)有機化合物を接触させて、加熱条件下で、該溶液状ポリアルミノキサン組成物(A)中に含まれるアルミニウム-炭素結合を有する化合物と、該(B)有機化合物を反応させ、析出させることにより調製される。その反応の過程において、使用する(B)周期律表第15~17族の元素を含む有機化合物の種類に応じて、下記一般式(5)~(7)で表される成分が生成すると考えられる。
-(R12)Al-YR13 ・・・(6)
-(R12)Al-Z ・・・(7)
一般式(5)~(7)中、R12は炭素原子数1~20の炭化水素基または酸素原子を示す。Xは第15族の原子、Yは第16族の原子、Zは第17族の原子を示す。R13、R14は炭素原子数1~50炭化水素基を示し、同一であっても、異なっていてもよい。
本発明は、オレフィン重合(多量化)触媒(以下、『オレフィン類の重合(多量化)触媒』とも称す)を包含する。本発明のオレフィン類の重合触媒は、本発明の固体状ポリアルミノキサン組成物に、下記一般式(8)で示される(H)遷移金属錯体を接触して得られる。
(式中、Mは遷移金属原子を示し、R31、R32、R33およびR34は、互いに同一でも異なっていてもよく、シクロペンタジエニル骨格を有する基、アルキル、シクロアルキル、アリール、アラルキル、アルコキシ、アリーロキシ、ハロゲン原子、アルキルシリル、アルキルアミド、アルキルイミド、-SO3Rまたは水素原子を示す。)
<(H)遷移金属錯体>
本発明で用いられる(H)遷移金属錯体は、公知のオレフィン重合(多量化)触媒として機能し得る遷移金属化合物であれば特に制限はない。
式(II)中、R1、R2、R3およびR4はそれぞれ独立に水素原子、炭化水素基、ケイ素含有基またはケイ素含有基以外のヘテロ原子含有基を示し、水素原子、炭化水素基またはケイ素含有基が好ましく、隣接する二つの基同士は互いに結合して環を形成していてもよい。
式(II)中、R5、R8、R9およびR12はそれぞれ独立に水素原子、炭化水素基、ケイ素含有基またはケイ素含有基以外のヘテロ原子含有基を示し、水素原子、炭化水素基またはケイ素含有基が好ましい。R6およびR11は水素原子、炭化水素基、ケイ素含有基およびケイ素含有基以外のヘテロ原子含有基から選ばれる同一の原子または同一の基であり、水素原子、炭化水素基およびケイ素含有基が好ましく;R7およびR10は水素原子、炭化水素基、ケイ素含有基およびケイ素含有基以外のヘテロ原子含有基から選ばれる同一の原子または同一の基であり、水素原子、炭化水素基およびケイ素含有基が好ましく;R6およびR7は互いに結合して環を形成していてもよく、R10およびR11は互いに結合して環を形成していてもよく;ただし、"R6、R7、R10およびR11が全て水素原子であること"はない。
式(II)中、R13およびR14はそれぞれ独立にアリールを示し、Y1は炭素原子またはケイ素原子を示す。本発明のオレフィン重合体の製造方法において重要な点は、架橋部の架橋原子Y1に、互いに同一でも異なっていてもよいアリール(aryl)[R13およびR14]が結合していることである。製造上の容易性から、R13およびR14は互いに同一であることが好ましい。
式(II)中、Qはヘテロ原子を含んでもよいアルキルを示し、jは1~4の整数を示し、jが2以上の整数の場合は複数あるQはそれぞれ同一でも異なっていてもよい。
以下に架橋型メタロセン化合物(II)の具体例を示す。なお、例示化合物中、オクタメチルオクタヒドロジベンゾフルオレニルとは式(III)で示される構造の化合物に由来する基を指し、オクタメチルテトラヒドロジシクロペンタフルオレニルとは式(IV)で示される構造の化合物に由来する基を指し、ジベンゾフルオレニルとは式(V)で示される構造の化合物に由来する基を指し、1,1',3,6,8,8'-ヘキサメチル-2,7-ジヒドロジシクロペンタフルオレニルとは式(VI)で示される構造の化合物に由来する基を指し、1,3,3',6,6',8-ヘキサメチル-2,7-ジヒドロジシクロペンタフルオレニルとは式(VII)で示される構造の化合物に由来する基を指す。
mは、1~6の整数を示し、
R19~R24は、互いに同一でも異なっていてもよく、水素原子、ハロゲン原子、炭化水素基、ヘテロ環式化合物残基、酸素含有基、窒素含有基、ホウ素含有基、イオウ含有基、リン含有基、ケイ素含有基、ゲルマニウム含有基、またはスズ含有基を示し、これらのうちの2個以上が互いに連結して環を形成していてもよく、
また、mが2以上の場合にはR19~R24で示される基のうち2個の基が連結されていてもよく、
nは、Mの価数を満たす数であり、
Xは、水素原子、ハロゲン原子、炭化水素基、酸素含有基、イオウ含有基、窒素含有基、ホウ素含有基、アルミニウム含有基、リン含有基、ハロゲン含有基、ヘテロ環式化合物残基、ケイ素含有基、ゲルマニウム含有基、またはスズ含有基を示し、nが2以上の場合は、Xで示される複数の基は互いに同一でも異なっていてもよく、またXで示される複数の基は互いに結合して環を形成してもよい。
一般式(10)で表される化合物としては、トリクロロ{6-[(2'-メトキシ-κO1-ビフェニル-2-イル)イミノ-κN1-メチル]-4-メチル-2-(トリシクロ[3.3.1.13,7]デカン-1-イル)フェノラト}チタン(IV)(試験例に記載の化合物9)が挙げられる。
本発明のオレフィン重合触媒における各成分の使用量について説明する。
本発明のオレフィン重合体の製造方法は、本発明のオレフィン類の重合触媒の存在下にて、オレフィンを重合する工程を含む。本発明のオレフィン類の重合触媒は、そのまま触媒としてあるいは触媒成分として用いてもよく、またオレフィンを予備重合させて得た予備重合触媒として用いてもよい。オレフィン重合体は、該工程を含む限り、公知の方法にて製造できる。なお、該オレフィン重合体は、オレフィンの単独重合体および2種以上のオレフィンより製造されるブロック共重合体およびランダム共重合体などの共重合体を包含する。
本発明はこれら試験例に限定されるものではない。
(1)回収率(アルミニウム基準の固体化率)
試験例において、固体状ポリアルミノキサン組成物の回収率は、(A)溶液状ポリアルミノキサン組成物と(B)有機化合物の反応におけるアルミニウム成分の固体化率から求めた。具体的には、上記反応溶液の上澄み部分に含まれるアルミニウム含量を、島津製作所社製ICPS(登録商標)-8100を用いて、ICP発光分光分析法(ICP-AES)により求め、(A)成分に含まれる総アルミニウム含量で除して、固体化していないアルミニウムのモル%を求め、100モル%からの差分をとることで、回収率(固体化率)を算出した。
固体状ポリアルミノキサン組成物の積統計値での中位経D50および均一性はMicrotrac社製のMT3300EX IIを利用し、レーザー回折・散乱法により求めた。
ここで、Xiは粒子iのヒストグラム値、D50は体積基準のメジアン径、Diは粒子iの体積基準径を示す。
本発明の固体状ポリアルミノキサン組成物の、25℃におけるn-ヘキサンおよびトルエンに対する溶解度の測定は、特公平7-42301号公報に記載の方法に準じて実施した。具体的には、得られた固体状ポリアルミノキサン組成物を乾燥して、溶媒に対する溶解度を測定した。n-ヘキサンに対する溶解割合は、25℃に保持された50mLのn-ヘキサンに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてG-4グラス製フィルターを用いて溶液部を分離して、このろ液中のアルミニウム濃度を測定することにより求める。該方法で得られる溶解割合は、試料として用いた固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対する上記ろ液中に存在するアルミニウム原子の割合として決定される。なお、固体状ポリアルミノキサン組成物の乾燥は、25℃で減圧乾燥を行い、重量変化が認められない時点を乾燥の終点とした。
固体状ポリアルミノキサン組成物および(A)溶液状ポリアルミノキサン組成物のアルミニウム含量は、島津製作所社製ICPS(登録商標)-8100を用いて、ICP発光分光分析法(ICP-AES)により求めた。
(5-1)固体状ポリアルミノキサン組成物の、テトラヒドロフラン-d8可溶部における、ポリアルキルアルミノキサン部位に由来するアルキル基およびトリアルキルアルミニウム部位に由来するアルキル基の総モル数(合計のモル数)に対するトリアルキルアルミニウム部位に由来するアルキル基のモル分率(1)またはポリアルキルアルミノキサン部位に由来するアルキル基およびトリメチルアルミニウムを含むトリアルキルアルミニウム部位に由来するアルキル基の総モル数(合計のモル数)に対するトリメチルアルミニウムを含むトリアルキルアルミニウム部位に由来するアルキル基のモル分率(2)は、東ソー研究・技術報告誌2003年第47巻55-60貢に記載のMMAOの解析方法と同様の方法で実施した。具体的には、1H-NMR測定により、一般式(1)で表される単位を含むポリメチルアルミノキサン、一般式(2)で表される単位を含むポリアルキルアルミノキサン、一般式(1)および一般式(2)で表される単位を含むポリメチルアルミノキサン、トリメチルアルミニウム、トリアルキルアルミニウムのそれぞれに帰属される面積比から求めた。
固体状ポリアルミノキサン組成物の比表面積は、測定装置に日本ベル社製のBELSORP(登録商標)-maxを使用し、液体窒素温度下における窒素ガス吸着法にて、吸着脱離等温線を測定した。解析法として、BET法を用いて比表面積を求めた。
固体状ポリアルミノキサン組成物に対して、日本電子(株)社製オートファインコーター(JFC-1600)を用いて白金を蒸着させ、その後、日本電子(株)社製走査型電子顕微鏡(JSM-6510LV)にて該組成物を観察した(倍率:200倍または1000倍)。
オレフィン重合(多量化)触媒の分析は、上記固体状ポリアルミノキサン組成物の分析に準じて実施した。オレフィン重合(多量化)触媒中のチタン、ジルコニウム、ハフニウム含有量は、島津製作所社製ICPS(登録商標)-8100を用いて、ICP発光分光分析法(ICP-AES)により求めた。
反応生成物の収量および1-ヘキセン(1-オクテン、デセン類)の選択率は、ガスクロマトグラフィー(島津GC-2010PLUS、J&W Scientific DB-5カラム)を用いて分析した。
単位時間当たりに得られた反応生成物の質量を、多量化に使用した遷移金属触媒成分中の遷移金属原子量(ミリモル)で除して求めた。
以下の式に従い1-ヘキセン(1-オクテン、デセン類)の選択率を求めた。
S(%):1-ヘキセンの選択率(重量分率)
Wr(重量):反応により生成した炭素原子数が4以上からなる生成物の合計重量
Wp(重量):反応により生成した1-ヘキセンの重量
なお、1-オクテン、デセン類の選択率は上記方法に準じて求めた。
生成したポリエチレン粒子全量X1(g)に対し、ファウリング評価用のテストピースに付着したポリエチレン粒子の量X2(g)の割合をファウリング率Fとして、以下の式に従い求めた。
(10)オレフィン重合反応
[メルトフローレート(MFR)]
MFRの測定は、ASTMD1238に準拠し、エチレン重合体は、190℃、荷重2.16kgの条件下で測定した。プロピレン重合体は、230℃、荷重2.16kgの条件下で測定した。
密度の測定は、JIS K7112に準拠し、MFR測定時に得られるストランドを100℃で1時間熱処理し、更に室温で1時間放置した後に密度勾配管法で測定した。
プロピレン単独重合体の融点(Tm)パーキンエルマー社製Diamond DSCを用いて、以下のようにして測定した。サンプルを230℃で融解させてシート状にした後、約5mgの当該シート状サンプル試料をパーキンエルマー社製B014-3021/B700-1014サンプルパンに充填した。
パーキンエルマー社製DSC8000を用い、窒素雰囲気下(20mL/min)、約5mgの試料を精秤し、10℃/minで30℃から280℃まで昇温した。280℃で5分間保持した後、10℃/minで30℃まで冷却した。30℃で5分間保持した後、10℃/minで280℃まで昇温させた。2回目の昇温時に観測された結晶溶融ピークの頂点を融点(Tm)とした。
重合体スラリーを濾過することで、固体状重合体(白色固体)と濾液とに分離した。次いで、濾液から蒸発法により溶媒を除去することで、濾液中に溶解している重合体を得た。次いで以下の式に基づき、濾液中の重合体量を算出した。
W1:濾別された固体状重合体(白色固体)の質量(g)
W2:スラリーの濾液中に溶解している重合体の質量(g)
[極限粘度([η])]
サンプル約20mgをデカリン15mLに溶解し、135℃のオイルバス中で比粘度ηspを測定した。このデカリン溶液にデカリン溶媒を5mL追加して希釈後、同様にして比粘度ηspを測定する。この希釈操作をさらに2回繰り返し、濃度(C)を0に外挿した時のηsp/C値を極限粘度[η]とした。
[嵩密度]
嵩密度の測定は、ASTM D1895-96 A法に準じて実施した。
アルベマール社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液の1H-NMR測定を行い、メチル基の総モル数に対するトリメチルアルミニウム部位に由来するメチル基のモル分率を求めたところ、28.5モル%だった。またICP-AES測定よりAl濃度を測定したところ、3.01mmol/mLだった(以下、『予備実験1Aの溶液』と称す)。
東ソー・ファインケム社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液(TMAO-211)の1H-NMR測定を行い、メチル基の総モル数に対するトリメチルアルミニウム部位に由来するメチル基のモル分率を求めたところ、47.0モル%だった。またICP-AES測定よりAl濃度を測定したところ、3.01mmol/mLだった(以下、『予備実験2の溶液』と称す)。
窒素雰囲気下で、予備実験1で用いたアルベマール社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液(30mL、27.03g)を遠心管に採取し、すり付玉栓でふたをした。ゲル状物の堆積は目視で観測されなかった。
予備実験3で調整したサンプルを、遠心分離機を用いて2,000Gで60分間遠心分離した。遠心分離後の遠心管の底部には無色透明のゲル状沈殿物が観察された。窒素雰囲気下で遠心分離後の上澄みを、ピペットを用いて注意深く取り出し、遠心分離したポリメチルアルミノキサン組成物のトルエン溶液を得た。1H-NMR測定を行い、メチル基の総モル数に対するトリメチルアルミニウム部位に由来するメチル基のモル分率を求めたところ、30.7モル%であった。
(1)1-アダマンチルシクロペンタジエニルリチウム:窒素雰囲気下、200ml三口フラスコにエチルマグネシウムブロマイドのtert-ブチルメチルエーテル溶液(1.0M、40ml)を装入した。この溶液を氷浴で冷却しつつシクロペンタジエン2.64gを20分間かけて滴下し、室温に戻し17時間攪拌し、溶液Aを調製した。
(2)2-(アダマンタン-1-イル)-8-メチル-3,3b,4,5,6,7,7a,8-オクタヒドロシクロペンタ[a]インデン:
窒素雰囲気下、100ml三口フラスコにTHF40ml、塩化マグネシウム1.57gを装入した。この溶液に1-アダマンチルシクロペンタジエニルリチウム3.09gをTHF10mlに溶解させて5分間かけて滴下し、室温で2時間、さらに50℃で3時間攪拌した。氷/アセトン浴下、1-アセチルシクロヘキセン1.96g(15.75mmol)をTHF10mlに溶解させて10分間かけて滴下し、室温で19時間攪拌した。氷/アセトン浴下、酢酸1.0ml、ピロリジン3.1mlを装入し、室温で17時間攪拌した。氷/アセトン浴下、飽和塩化アンモニウム水溶液30mlを加えた。ヘキサン100mlを加えた後、有機層を分離し、水層をヘキサン200mlで抽出し、先の有機層と合わせて、水で二回洗浄した。硫酸マグネシウムで乾燥した後、溶媒を留去した。メタノールから再結晶することにより、表題化合物を得た。収量2.134g、収率47%。
GC-MS:m/Z=306(M+).
(3)8-オクタメチルフルオレン-12’-イル-(2-(アダマンタン-1-イル)-8-メチル-3,3b,4,5,6,7,7a,8-オクタヒドロシクロペンタ[a]インデン):
窒素雰囲気下、30mlシュレンク管にオクタメチルフルオレン1.546g、tert-ブチルメチルエーテル40mlを装入した。氷/アセトン浴下、1.6Mのn-ブチルリチウムヘキサン溶液2.62mlを15分間かけて滴下した。徐々に室温に戻しながら22時間攪拌した。2-(アダマンタン-1-イル)-8-メチル-3,3b,4,5,6,7,7a,8-オクタヒドロシクロペンタ[a]インデン1.349gを加えた。室温で19時間、さらに50℃で8時間攪拌した後、反応溶液を飽和塩化アンモニウム水溶液100mlに加えた。有機層を分離し、水層をヘキサン100mlで抽出し、先の有機層と合わせて、水で2回洗浄した。硫酸マグネシウムで乾燥した後、溶媒を留去した。得られた固体をアセトンで洗浄することにより、表題化合物を得た。収量1.51g、収率54%。
1H-NMRより、複数の異性体の混合物であった。
窒素雰囲気下、100mlシュレンク管に8-オクタメチルフルオレン-12’-イル-(2-(アダマンタン-1-イル)-8-メチル-3,3b,4,5,6,7,7a,8-オクタヒドロシクロペンタ[a]インデン1.039g、α-メチルスチレン0.47ml、ヘキサン30ml、シクロペンチルメチルエーテル2.62mlを装入した。25℃のオイルバス下、1.6Mのn-ブチルリチウムヘキサン溶液2.18mlを10分間かけて滴下した。50℃で4時間攪拌した後、析出物をろ過し、ヘキサンで洗浄することにより、桃色粉末を得た。100mlシュレンク管に、この桃色粉末、ジエチルエーテル30mlを装入した、ドライアイス/アセトンバスで冷却した後、四塩化ジルコニウム0.385g(1.65mmol)をジエチルエーテル30mlにて懸濁させつつ加えた。その後徐々に室温まで昇温しながら16時間攪拌した。
[固体状ポリアルミノキサン組成物の合成]
試験例に記載の方法にて、固体状ポリアルミノキサン組成物の合成を行った。試験例における製造方法の一部および結果を表1~13に示した。
攪拌機付の200mLガラス製フラスコ(以下、『フラスコA』と称す)にトルエン14mLを加え70℃に昇温後、『アルベマール社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液(Al濃度=3.01mmol/mL、14mL、42mmol)』(以下、『試験例A1の溶液』と称す)を加えた。続いてBenzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を40mLに調製して、固体状ポリアルミノキサン組成物を得た。アルミニウム基準の固体化率は94.0%だった。
粒度分布を測定した。体積統計値での中位径D50は29.3μm、均一性は0.237であった。
試験例A1において、Benzaldehydeのトルエン溶液を添加後、70℃で30分間攪拌した後、1.0℃/分の昇温速度で105℃まで昇温し、105℃で4時間反応させた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Benzaldehyde(0.67g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン48mLを加え70℃に昇温後、予備実験1Bの溶液(34mL、102mmol)を加えた。続いてBenzaldehyde(1.84g、17.3mmol)のトルエン溶液(28mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(60mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を80mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン46mLを加え70℃に昇温後、予備実験1Bの溶液(34mL、102mmol)を加えた。続いてBenzaldehyde(2.05g、19.4mmol)のトルエン溶液(29mL)を30分かけて添加した。その後は、試験例A4と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Acetophenone(0.66g、5.5mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン27mLを加え70℃に昇温後、予備実験1Bの溶液(27mL、81mmol)を加えた。続いて、2-Phenyl-2-propanol(1.66g、12.2mmol)のトルエン溶液(33mL)を30分かけて添加した。その後は、試験例A4と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン37mLを加え70℃に昇温後、予備実験1Bの溶液(34mL、102mmol)を加えた。続いてBenzaldehyde(1.46g、13.8mmol)のトルエン溶液(38mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で8時間反応させた。80℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(60mL)を用いて80℃で3回洗浄した後、トルエンを加えて全量を102mLに調製して、固体状ポリアルミノキサン組成物を得た。
なお、固体状ポリアルミノキサン組成物の析出開始は、Benzaldehyde添加後、70℃で攪拌中に観測された。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、4-Fluorobenzaldehyde(0.78g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン37mLを加え70℃に昇温後、予備実験1Bの溶液(34mL、102mmol)を加えた。続いてAcetophenone(1.65g、13.8mmol)のトルエン溶液(38mL)を120分かけて添加した。添加後70℃で60分間攪拌した後、1.0℃/分の昇温速度で105℃まで昇温し、105℃で8時間反応させた。80℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(60mL)を用いて80℃で3回洗浄した後、トルエンを加えて全量を87mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン37mLを加え70℃に昇温後、予備実験1Bの溶液(34mL、102mmol)を加えた。続いてPropiophenone(1.85g、13.8mmol)のトルエン溶液(38mL)を180分かけて添加した。添加後70℃で60分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で8時間反応させた。その後は、試験例A10と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン8mLを加え50℃に昇温後、予備実験1Cの溶液(35mL、106mmol)を加えた。続いてValerophenone(2.58g、15.9mmol)のトルエン溶液(10mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で105℃まで昇温し、105℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回,常温で1回洗浄した後、トルエンを加えて全量を100mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン10mLを加え50℃に昇温後、予備実験1Cの溶液(35mL、106mmol)を加えた。続いてOctanophenone(2.82g、13.8mmol)のトルエン溶液(10mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン40mLを加え50℃に昇温後、予備実験1Aの溶液(40mL、120mmol)を加えた。続いてLaurophenone(4.69g、18.0mmol)のトルエン溶液(48mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(100mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を114mLに調製した。
フラスコAにトルエン50mLを加え50℃に昇温後、予備実験1Cの溶液(35mL、106mmol)を加えた。続いてLaurophenone(4.16g、16.0mmol)のトルエン溶液(27mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン3mLを加え50℃に昇温後、予備実験1Cの溶液(39.5mL、120mmol)を加えた。続いてDL-1-Phenylethyl alcohol(2.20g、18.0mmol)のトルエン溶液(9mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン16mLを加え50℃に昇温後、予備実験1Cの溶液(21mL、64mmol)を加えた。続いてGeraniol(1.62g、10.5mmol)のトルエン溶液(9mL)を30分かけて添加した。添加後50℃で30分間攪拌した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。その後は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン16mLを加え70℃に昇温後、予備実験1Cの溶液(18mL、55mmol)を加えた。続いてFarnesol(1.93g、8.7mmol)のトルエン溶液(24mL)を30分かけて添加した。添加後70℃で90分間攪拌した。その後は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン17mLを加え50℃に昇温後、予備実験1Cの溶液(17.5mL、53mmol)を加えた。続いてPhytol(3.36g、8.0mmol)のトルエン溶液(11mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン3mLを加え50℃に昇温後、予備実験1Cの溶液(35mL、106mmol)を加えた。続いて2-Methyl-3-buten-2-ol(1.37g、16.0mmol)のトルエン溶液(11mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で105℃まで昇温し、105℃で6時間反応させた。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン10mLを加え50℃に昇温後、予備実験1Dの溶液(21mL、64mmol)を加えた。続いてLinalool(1.59g、10.3mmol)のトルエン溶液(15mL)を60分かけて添加した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を60mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン10mLを加え50℃に昇温後、予備実験1Aの溶液(21mL、63mmol)を加えた。続いてLinalool(1.75g、11.3mmol)のトルエン溶液(15mL)を30分かけて添加した。その後は、試験例A21と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン13mLを加え50℃に昇温後、予備実験1Cの溶液(27mL、82mmol)を加えた。続いてDL-1-Phenylethyl alcohol(1.20g、9.8mmol)/Isophytol(0.73g、2.5mmol)のトルエン溶液(10mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン12mLを加え50℃に昇温後、予備実験1Cの溶液(21mL、64mmol)を加えた。続いてBenzoic acid(0.23g、1.9mmol)/Octanophenone(1.96g、9.6mmol)のトルエン溶液(13mL)を30分かけて添加した。その後は、試験例A21と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え70℃に昇温後、予備実験1Cの溶液(18mL、55mmol)を加えた。Benzotrifluoride(0.13g、0.92mmol)のトルエン溶液(2mL)を10分かけて添加し、70℃で5分間攪拌した。続いてFarnesol(1.94g、8.7mmol)のトルエン溶液(23mL)を30分かけて添加した。添加後70℃で90分間攪拌した。1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。その後は、試験例A21と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン23mLを加え70℃に昇温後、予備実験1Cの溶液(16mL、49mmol)を加えた。続いてN,N-Dimethylbenzylamine(0.065g、0.48mmol)/2-Phenyl-2-propanol(1.06g、7.8mmol)のトルエン溶液(12mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で110℃まで昇温し、110℃で6時間反応させた。その後は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン12mLを加え70℃に昇温後、予備実験1Cの溶液(13mL、40mmol)とトリイソブチルアルミニウムのトルエン溶液(Al濃度=1.00mmol/mL、0.79mL、0.79mmol)を加えた。続いてAcetophenone(0.71g、5.9mmol)のトルエン溶液(16mL)を120分かけて添加した。添加後70℃で60分間攪拌した。その後は、試験例A26と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A27において、予備実験1Cの溶液(13mL、40mmol)とトリイソブチルアルミニウムのトルエン溶液(Al濃度=1.00mmol/mL、0.79mL、0.79mmol)の代わりに、予備実験1Cの溶液(12mL、36mmol)と東ソー・ファインケム社製MMAO-3Aのトルエン溶液(Al濃度=2.13mmol/mL、1.85mL、3.9mmol))を用いた以外は、試験例A27と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン17mLを加え50℃に昇温後、東ソー・ファインケム社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液(TMAO-211、Al濃度=2.94mmol/mL、20mL、59mmol)を加えた。続いてDL-1-phenylethyl alcohol(2.00g、16.4mmol)のトルエン溶液(7mL)を30分かけて添加した。その後は、試験例A12と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え80℃に昇温後、試験例A1の溶液を加えた。続いてBenzaldehyde(0.67g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後80℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を40mLに調製した。アルミニウム基準の固体化率は98.7%だった。
粒度分布を測定した。体積統計値での中位径D50は24.0μm、均一性は0.243であった。
フラスコAにトルエン14mLを加え95℃に昇温後、試験例A1の溶液を加えた。続いてBenzaldehyde(0.67g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加し、添加後、95℃で4時間反応させた。その後は、試験例D4と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Acetophenone(0.76g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いてAcetophenone(0.86g、7.1mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。その後は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え70℃に昇温後、試験例A1の溶液を加えた。続いてAcetophenone(0.66g、5.5mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で8時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて80℃で3回洗浄した後、トルエンを加えて全量を40mLに調製して、固体状ポリアルミノキサン組成物を得た。
SEMによる観察を行った。その結果を図3に示す。また、粒度分布を測定した結果、体積統計値での中位径D50は28.8μm、均一性は0.230であった(図4)。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いてAcetophenone(0.76g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて1-(p-Tolyl)-ethanol(0.86g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.74g、5.5mmol)のトルエン溶液(16.8mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて1-Phenylethyl alcohol(0.77g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン70mLを加え50℃に昇温後、予備実験1Aの溶液(70mL、210mmol)を加えた。続いてDL-1-Phenylethyl alcohol(3.85g、31.6mmol)のトルエン溶液(84mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(90mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を200mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、予備実験2の溶液(Al濃度=3.01mmol/mL、14mL、42mmol)』(以下、『試験例D17の溶液』と称す)を加えた。続いて1-Phenylethyl alcohol(1.39g、11.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン27mLを加え50℃に昇温後、予備実験1Aの溶液(6.5mL、20mmol)を加えた。続いてBenzophenone(0.47g、2.6mmol)のトルエン溶液(7mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を19mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いてCyclohexyl Phenyl ketone(1.19g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAに、予備試験1Aの溶液(20mL、60mmol)を加えて50℃に昇温した。続いてCyclohexyl methyl ketone(1.14g、9.0mmol)のトルエン溶液(23mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を57mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いてp-Nonylacetophenone(1.55g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、p-Fluoroacetophenone(0.87g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて4-Fluorobenzyl alcohol(1.01g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いてBenzyl alcohol(0.68g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて4-Methylbenzyl alcohol(0.77g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。添その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて3-Methylbenzyl alcohol(0.77g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて2-Methylbenzyl alcohol(0.77g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、4-Isopropylbenzyl alcohol(0.95g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて1-Phenyl-1-propanol(0.86g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて1-Phenyl-1-pentanol(1.03g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。その後は、試験例D8と同様にして、固体状ポリアルミノキサン組成物を得た。
SEMによる観察を行った。その結果を図5に示す。また、粒度分布を測定した結果、体積統計値での中位径D50は19.1μm、均一性は0.223であった(図6)。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Geraniol (0.97g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Farnesol (1.40g、6.3mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
SEMによる観察を行った。その結果を図7に示す。また、粒度分布を測定した結果、体積統計値での中位径D50は6.6μm、均一性は0.227であった(図8)。
フラスコAにトルエン14mLを加え70℃に昇温後、試験例A1の溶液を加えた。続いてPhytol(1.87g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、ヘプタン(90mL)を添加し、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはヘプタン(45mL)を用いて60℃で2回、常温で1回洗浄した後、ヘプタンを加えて全量を40mLに調製して、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、試験例A1の溶液を加えた。続いて1-Phenylethyl alcohol(0.77g、6.3mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で加熱した。
試験例D35の加熱温度95℃を60℃に変更して反応追跡を実施した。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.43g、3.2mmol)/1-Phenyl-1-pentanol(0.52g、3.2mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/1-Phenyl-1-pentanol(0.26g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.74g、5.5mmol)/1-Phenyl-1-pentanol(0.16g、0.8mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/Benzyl alcohol(0.17g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/1-Phenyl-1-propanol(0.21g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/DL-1-Phenylethyl alcohol(0.19g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/Benzaldehyde(0.17g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/4-Methylbenzyl alcohol(0.19g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/Acetophenone(0.19g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.64g、4.7mmol)/4-Methylbenzaldehyde(0.19g、1.6mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、2-Phenyl-2-propanol(0.57g、4.2mmol)/4-Methylbenzaldehyde(0.25g、2.1mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Benzyl alcohol(0.34g、3.2mmol)/4-Methylbenzaldehyde(0.38g、3.2mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、DL-1-Phenylethyl alcohol(0.51g、4.2mmol)/4-Methylbenzaldehyde(0.25g、2.1mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、4-Methylbenzyl alcohol(0.51g、4.2mmol)/4-Methylbenzaldehyde(0.25g、2.1mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え70℃に昇温後、試験例A1の溶液を加えた。続いてAcetophenone(0.52g、4.4mmol)/4-Methylbenzaldehyde(0.13g、1.1mmol)のトルエン溶液(17mL)を30分かけて添加した。添加後70℃で60分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。その後は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
試験例A1において、Benzaldehyde(0.58g、5.5mmol)のトルエン溶液(17mL)の代わりに、Acetophenone(0.49g、4.1mmol)/4-Methylbenzaldehyde(0.16g、1.4mmol)のトルエン溶液(17mL)を用いた以外は、試験例A1と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン22mLを加え50℃に昇温後、予備実験1Eの溶液(20mL、63mmol)を加えた。続いて(p-Methylphenyl)methanethiol(1.31g、9.5mmol)のトルエン溶液(14mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。析出した固体状ポリアルミノキサンは、50℃まで降温後、ヘプタン(100mL)を添加し、上澄み液をデカンテーションで除去した。続いて、ヘプタン(100mL)を用いて常温で2回洗浄した後、ヘプタンを加えて全量を50mLに調製して、固体状ポリアルミノキサン組成物を得た。
試験例A22において、予備実験1Aの溶液(21mL、63mmol)の代わりに予備実験4で調整したポリメチルアルミノキサン組成物のトルエン溶液(21mL、63mmol)を用いたこと以外は、試験例A22と同様にして、固体状ポリアルミノキサン組成物を得た。
フラスコAにトルエン14mLを加え50℃に昇温後、アルベマール社製ポリメチルアルミノキサン組成物の20wt%トルエン溶液(Al濃度=3.04mmol/mL、7.8mL、23mmol)と東ソー・ファインケム社製MMAO-3Aのトルエン溶液(Al濃度=2.18mmol/mL、4.6mL、10mmol))を加えた。続いて2-phenyl-2-propanol(0.82g、6.0mmol)のトルエン溶液(9mL)を30分かけて添加した。添加後50℃で30分間攪拌した後、1.0℃/分の昇温速度で100℃まで昇温し、100℃で4時間反応させた。60℃まで降温後、上澄み液をフィルターで除去した。析出した固体状ポリアルミノキサンはトルエン(25mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を40mLに調製して、固体状ポリアルミノキサン組成物を得た。
国際公開第2010/055652号パンフレットに記載の方法(予備実験3および実施例2)に基づいて固体状ポリアルミノキサンを調製した。ただし、トリメチルアルミニウムの発火等の安全性に配慮して、当該文献に開示されている条件の約1/3倍の濃度で実施した。
粒度分布を測定した。体積統計値での中位径D50は27.2μm、均一性は0.242であった。
SEMによる観測を行った。その結果を図9に示す。
攪拌装置を有するガラス製反応器に1.5mol/Lに調製したトリメチルアルミニウムのトルエン溶液150mLを装入した。該溶液を15℃になるまで冷却し、これに安息香酸(11.0g、90mmol)を溶液の温度が25℃以下になるような速度でゆっくりと添加した。その後50℃で加熱熟成を1時間行った。この時、トリメチルアルミニウムと安息香酸の酸素原子のモル比は、1.25であった。反応液を70℃で4時間加熱し、その後60℃で6時間加熱した後、一度室温まで冷却した。次いで100℃で4時間加熱し、固体状アルミノキサンを析出させた。溶液を30℃以下まで冷却した後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(60mL)を用いて、常温で4回洗浄した後、トルエンを加えて全量を75mLに調製した。
フラスコAにトルエン23mLを加え70℃に昇温後、予備実験1Bの溶液(20mL、60mmol)を加えた。続いてBenzaldehyde(0.70g、6.6mmol)のトルエン溶液(21mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で2回洗浄した後、トルエンを加えて全量を45mLに調製して、固体状ポリアルミノキサン組成物を得た。
SEMによる観測を行った。その結果を図11に示す。
フラスコAにトルエン20mLを加え70℃に昇温後、予備実験1Bの溶液(20mL、60mmol)を加えた。続いてBenzaldehyde(0.83g、7.8mmol)のトルエン溶液(24mL)を30分かけて添加した。添加後70℃で30分間攪拌した後、1.0℃/分の昇温速度で80℃まで昇温し、80℃で4時間反応させた。60℃まで降温後、上澄み液をデカンテーションで除去した。析出した固体状ポリアルミノキサンはトルエン(45mL)を用いて60℃で2回、常温で1回洗浄した後、トルエンを加えて全量を50mLに調製して、固体状ポリアルミノキサン組成物を得た。
予備実験1Aの溶液を用いて、特開平7-300486号公報の実施例(実験109)に記載の方法に基づいて固体状ポリアルミノキサンを調製したところ、ゲル状の成分を多く含む不定形の固体が得られた。
SEMによる観察を行った。その結果を図12に示す。また、粒度分布を測定した結果、体積統計値での中位径D50は149μm、均一性は0.513であった(図13)。
フラスコAにトルエン30mLを加え70℃に昇温後、試験例A1の溶液を加えた。70℃で60分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させたが、固体状ポリアルミノキサン組成物は析出しなかった。
フラスコAにトルエン30mLを加え70℃に昇温後、試験例D17の溶液を加えた。70℃で60分間攪拌した後、1.0℃/分の昇温速度で95℃まで昇温し、95℃で4時間反応させたが、固体状ポリアルミノキサン組成物は析出しなかった。
特開2004-51801号明細書の実施例記載の方法で多孔質シリカ(AGCエスアイテック社H-121)にポリメチルアルミノキサンを担持して、シリカ担持ポリメチルアルミノキサンを調製した。固体状ポリアルミノキサン組成物と同様の方法で失活処理後、粒度分布を測定した。
グローブボックス内で、試験例A1で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.99mmol/mL、1.6mL、1.6mmol)を反応容器に採取した。該スラリーに、トルエン(6.9mL)を加えた後、国際公開第2009/5003号パンフレット記載のTi化合物9(下記化合物9)のトルエン溶液(濃度2.5mmol/L、12.7mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。静置して固体成分を沈降させた後、上澄みを0.2μmフィルターに通して残留固体成分を除去して、オレフィン重合(多量化)触媒を得た。
試験例A2で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.97mmol/mL、1.6mL、1.6mmol)およびトルエン(6.8mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、1.8mL、1.6mmol)およびトルエン(6.7mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A6で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.03mmol/mL、1.5mL、1.5mmol)、トルエン(6.7mL)および上記Ti化合物9のトルエン溶液(濃度2.5mmol/L、12.4mL、0.031mmol)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A7で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.86mmol/mL、1.9mL、1.6mmol)およびトルエン(6.7mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a1で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.94mmol/mL、1.7mL、1.6mmol)およびトルエン(6.8mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a2で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、1.5mL、1.6mmol)およびトルエン(7.0mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、1.8mL、1.6mmol)およびトルエン(6.7mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a4で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.18mmol/mL、1.4mL、1.7mmol)およびトルエン(7.2mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A1で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.99mmol/mL、3.2mL、3.2mmol)およびトルエン(5.3mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A1で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.99mmol/mL、6.4mL、6.4mmol)およびトルエン(2.1mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
グローブボックス内で、試験例A1で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.99mmol/mL、9.6mL、9.5mmol)を反応容器に採取した。このスラリーから濃度調製のために上澄み(1.1mL)をデカンテーションで除去した後、上記Ti化合物9のトルエン溶液(濃度2.5mmol/L、12.7mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、3.6mL、3.2mmol)およびトルエン(4.9mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、7.1mL、6.3mmol)およびトルエン(1.4mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A6で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.03mmol/mL、3.0mL、3.1mmol)、トルエン(5.2mL)および上記Ti化合物9のトルエン溶液(濃度2.5mmol/L、12.4mL、0.031mmol)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例A6で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.03mmol/mL、6.0mL、6.2mmol)、トルエン(2.2mL)および上記Ti化合物9のトルエン溶液(濃度2.5mmol/L、12.4mL、0.031mmol)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a2で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、3.0mL、3.2mmol)およびトルエン(5.5mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a2で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、6.0mL、6.4mmol)およびトルエン(2.5mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、3.6mL、3.2mmol)およびトルエン(4.9mL)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、12.0mL、12.7mmol)、トルエン(5.0mL)および上記Ti化合物9のトルエン溶液(濃度2.5mmol/L、25.4mL、0.064mmol)を用いた以外は、試験例B1と同様の方法により、ろ液を得た。
グローブボックス内で、試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、3.6mL、3.2mmol)を反応容器に採取した。このスラリーに、トルエン(4.9mL)を加えた後、Bis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、12.7mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、7.1mL、6.3mmol)およびトルエン(1.4mL)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例A3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.35mmol/mL、7.2mL、9.7mmol)、トルエン(1.4mL)およびBis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、13.0mL、0.032mmol)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例A3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.35mmol/mL、72mL、97mmol)を反応容器に採取した。このスラリーから濃度調製のために上澄み(42mL)をデカンテーションで除去した後、Bis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、13.0mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
試験例A4で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.31mmol/mL、5.0mL、6.6mmol)、トルエン(3.7mL)およびBis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、13.1mL、0.033mmol)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例A5で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.28mmol/mL、5.0mL、6.4mmol)およびトルエン(3.5mL)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.91mmol/mL、1.8mL、1.6mmol)およびトルエン(3.5mL)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例b3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.91mmol/mL、3.5mL、3.2mmol)およびトルエン(5.0mL)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、12.0mL、12.7mmol)、トルエン(5.0mL)およびBis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、25.4mL、0.064mmol)を用いた以外は、試験例B13と同様の方法により、ろ液を得た。
グローブボックス内で、試験例a3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.97mmol/mL、19.5mL、19.0mmol)を反応容器に採取した。このスラリーから濃度調製のために上澄み(2.6mL)をデカンテーションで除去した後、トルエン(5.0mL)を加えた後、Bis(n-butylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、25.3mL、0.063mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、7.1mL、6.3mmol)を反応容器に採取した。このスラリーに、トルエン(1.4mL)を加えた後、Diphenylmethylidene(cyclopentadienyl)(9-fluorenyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、12.7mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例A3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.89mmol/mL、7.1mL、6.3mmol)を反応容器に採取した。このスラリーに、トルエン(1.4mL)を加えた後、Dimethylsilylenebis(cyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、12.7mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例A3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.35mmol/mL、4.8mL、6.5mmol)を反応容器に採取した。このスラリーに、トルエン(3.9mL)を加えた後、Bis(t-butylcyclopentadienyl)hafnium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、13.0mL、0.032mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例A3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.35mmol/mL、5.0mL、6.8mmol)を反応容器に採取した。このスラリーに、トルエン(4.0mL)を加えた後、国際公開第2001/55231号パンフレット記載のTi化合物1(ビス{N-(3-tert-ブチルサリチリデン)-2,3,4,5,6-ペンタフルオロアニリナト}チタニウム(IV)ジクロリド)のトルエン溶液(濃度2.5mmol/L、13.5mL、0.034mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、12.0mL、12.7mmol)を反応容器に採取した。このスラリーに、トルエン(5.0mL)を加えた後、Diphenylmethylidene(cyclopentadienyl)(9-fluorenyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、25.4mL、0.064mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.06mmol/mL、12.0mL、12.7mmol)を反応容器に採取した。このスラリーに、トルエン(5.0mL)を加えた後、Dimethylsilylenebis(cyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度2.5mmol/L、25.4mL、0.064mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.97mmol/mL、13.0mL、12.6mmol)を反応容器に採取した。このスラリーに、トルエン(3.9mL)を加えた後、Bis(t-butylcyclopentadienyl)hafnium(IV) Dichlorideトルエン溶液(濃度2.5mmol/L、25.3mL、0.063mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
グローブボックス内で、試験例a3と同様に調製した固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.97mmol/mL、13.0mL、12.6mmol)を反応容器に採取した。このスラリーに、トルエン(3.9mL)を加えた後、国際公開第2001/55231号パンフレット記載のTi化合物1(ビス{N-(3-tert-ブチルサリチリデン)-2,3,4,5,6-ペンタフルオロアニリナト}チタニウム(IV)ジクロリド)のトルエン溶液(濃度2.5mmol/L、25.3mL、0.063mmol)を加え、遮光下、常温で3時間攪拌した。その後は、試験例B1と同様の操作により、オレフィン重合(多量化)触媒を得た。
充分に窒素置換した内容積200ミリリットルの反応器に、試験例A8で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=0.98mmol/mL、14.7mL、14.4mmol)とトルエン(31.3mL)を装入した。このスラリーに、Bis(1,3-n-butylmetylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度12.0mmol/L、4.0mL、0.048mmol)を加え、常温で1時間攪拌した。静置して固体成分を沈降させた後、上澄み液を除去し、ヘキサンで2回洗浄することにより、全量50ミリリットルの固体触媒成分スラリーを調製した。
試験例B23-1で得られた固体触媒成分スラリーを10℃まで冷却した後、ジイソブチルアルミニウムハイドライド(DiBAl-H)(2.0mmol)を加え、エチレン(流量0.9L/hr)の供給を開始した。系内の温度を35℃に昇温した後、33~37℃に調整しながら、エチレンを3時間供給した。次いで、系内を窒素により置換し、静置して固体成分を沈降させた後、上澄み液を除去し、ヘキサンで3回洗浄することにより、全量を50ミリリットルとした。
試験例a3で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(Al濃度=1.13mmol/mL、15.6mL、17.7mmol)とトルエン(29.5mL)およびBis(1,3-n-butylmetylcyclopentadienyl)zirconium(IV) Dichlorideのトルエン溶液(濃度12.0mmol/L、4.9mL、0.059mmol)を用いた以外は試験例B23-1と同様の条件にて、固体触媒成分スラリー(全量50mL)を調製した。
試験例b17-1で得られた固体触媒成分スラリーを用いた以外は、実試験例B23-2と同様の条件にて予備重合触媒成分を調製した。
充分に窒素置換した100mLの3口フラスコに攪拌棒を装着し、これに試験例A10で得られた固体状ポリアルミノキサン組成物のトルエンスラリー(11.2mL)を加えた。ここに室温で脱水トルエン18.8mLを加え、撹拌させながら35℃まで昇温した。一方、充分に窒素置換したシュレンク管にジフェニルメチレン(3-tert-ブチル-5-メチル-シクロペンタジエニル)(2,7-ジ-tert-ブチル-フルオレニル)ジルコニウムジクロリド40.2mgを秤量し、次いでトルエン8.7gを加えて撹拌させてメタロセン錯体溶液を調製した。先に調製した固体状ポリアルミノキサン組成物のトルエンスラリーにメタロセン錯体溶液を滴下し、滴下後1時間撹拌した。撹拌を止め静置し、固体を沈降させた後に無色透明な上澄み液20.34gを採取した。上澄み液に含まれる金属をICP-AESを用いて分析した結果、ジルコニウムが0.0467mg検出され、液中のジルコニウム濃度は2.3ppmであった。残ったスラリーを窒素雰囲気下でフィルター濾過し、フィルター上の紛体を脱水トルエン10mLで2回、次いで脱水ヘキサン10mLで1回洗浄した。洗浄後の紛体を2時間減圧乾燥して0.913gの担持触媒を得た。ICPによる担持触媒中のジルコニウム濃度は0.50wt%であった。得られた紛体にミネラルオイルを加え10.0wt%スラリーとした。
試験例a3で調製した固体状ポリアルミノキサン組成物のトルエンスラリー(15.6mL)、メタロセン錯体を46.5mg用いた以外は、試験例B24と同様の方法で担持触媒を調製した。薄紫色の上澄み液19.88gからジルコニウムが0.242mg検出され、液中のジルコニウムの濃度は12.2ppmであった。また、1.125gの担持触媒が得られ、担持触媒中のジルコニウム濃度は0.45wt%であった。得られた紛体にミネラルオイルを加え10.0wt%スラリーとした。
30℃下、充分に窒素置換した100mLの攪拌機を付けた三つ口フラスコ中に、窒素気流下で精製デカン32mL及び試験例A15で得られた固体状ポリアルミノキサン組成物をアルミニウム換算で8.2mmol装入し、懸濁液とした。その懸濁液に、予備実験5に記載の遷移金属化合物(8-オクタメチルフルオレン-12’-イル-(2-(アダマンタン-1-イル)-8-メチル-3,3b,4,5,6,7,7a,8-オクタヒドロシクロペンタ[a]インデン))ジルコニウムジクロライド)27.9mg(0.033mmol)を3.2mmol/Lのトルエン溶液として撹拌しながら加えた。1時間後攪拌を止め、デカンテーション法によりデカン50mLで3回洗浄し、スラリー液とした(Zr担持率100%)。
試験例B25-1で調製したスラリー液に、水素(1.5L/h)と窒素(15L/h)の混合気体を流通して内部を置換した後、ジイソブチルアルミニウムハイドライドのデカン溶液(アルミニウム原子換算で1.0mmol/mL)を2.3mL、さらに3-メチル-1-ペンテンを2.2mL.装入した。1時間後攪拌を止め、デカンテーション法によりデカン50mLで3回洗浄した。予備重合触媒成分はデカンスラリー(5g/L、0.31mmol-Zr/L)とした。
30℃下、充分に窒素置換した100mLの攪拌機を付けた三つ口フラスコ中に、窒素気流下で精製デカン32mL及び試験例a3で得られた固体状ポリアルミノキサン組成物をアルミニウム換算で7.5mmol装入し、懸濁液とした。その懸濁液に、予備実験5に記載の遷移金属化合物25.5mg(0.030mmol)を4.3mmol/Lのトルエン溶液として撹拌しながら加えた。1時間後、攪拌を止め、デカンテーション法によりデカン50mLで3回洗浄し、スラリー液とした(Zr担持率97%)。
試験例b19-1で調製したスラリー液、およびジイソブチルアルミニウムハイドライドのデカン溶液(アルミニウム原子換算で1.0mmol/mL)を2.1mLを使用した以外は、試験例B25-2と同様に予備重合触媒成分のデカンスラリー(5g/L、0.33mmol-Zr/L)を調製した。
充分に窒素置換した内容積30mLの反応器に、試験例A21で調製したスラリー液(スラリー濃度=105mg/mL、4.6mL、482mg)とヘプタン(17.6mL)を装入した。このスラリーに、ジ-p-トリルメチレン(シクロペンタジエニル)(オクタメチルオクタヒドロジベンゾフルオレニル)ジルコニウム(IV)ジメチルのヘプタン溶液(濃度6.9mg/mL、2.6mL、18mg)を加え、常温で1時間攪拌した。次いで、トリイソブチルアルミニウム(TIBAL)のデカン溶液(濃度1.0mmol/mL、0.25mL、0.25mmol)を加え、常温で2時間攪拌することにより、固体触媒成分スラリーを調製した。
充分に窒素置換した内容積100mLの反応器に、試験例A14で調製したスラリー液(スラリー濃度=139mg/mL、1.74mL、243mg)とトルエン(19.9mL)を装入した。このスラリーに、Organometallics誌1994年13巻954-963頁に記載のジメチルシリレン-ビス{1-(2-メチル-4-フェニルインデニル)}ジルコニウム(IV)ジクロリドのトルエン溶液(濃度2.2mg/mL、3.4mL、7.5mg)を加え、常温で1時間攪拌することにより、固体触媒成分スラリーを調製した。得られた上澄み液を、試験例B26と同様にして分析した。その結果を表11に示す。
充分に窒素置換した内容積100mLの反応器に、試験例A14で調整したスラリー液(スラリー濃度=139mg/mL、1.72mL、240mg)とトルエン(19.7mL)を装入した。このスラリーに、特開2000-239312号公報に記載の化合物17(ビス{N-(5-アダマンチル-3-メチルサリチリデン)-2-メチルシクロヘキシルアミナト}ジルコニウム(IV)ジクロリド)のトルエン溶液(濃度2.9mg/mL、3.6mL、10.5mg)を加え、常温で1時間攪拌することにより、固体触媒成分スラリーを調製した。得られた上澄み液を、試験例B26と同様にして分析した。その結果を表10に示す。
充分に窒素置換した内容積30mLの反応器に、試験例A14で調整したスラリー液(スラリー濃度=139mg/mL、1.73mL、241mg)とトルエン(19.7mL)を装入した。このスラリーに、ビス{N-(3-tert-ブチルサリチリデン)-2,3,4,5,6-ペンタフルオロアニリナト}チタニウム(IV)ジクロリドのトルエン溶液(濃度2.7mg/mL、3.6mL、9.5mg)を加え、常温で1時間攪拌することにより、固体触媒成分スラリーを調製した。
充分に窒素置換した内容積30mLの反応器に、試験例A14で調整したスラリー液(スラリー濃度=139mg/mL、1.70mL、237mg)とトルエン(18.6mL)を装入した。このスラリーに、国際公開第2007/136496号パンフレット記載のZr化合物(ビス((2-オキソイル-3-(3,5-ビス(1,1-ジメチルエチル)フェニル)-(5-(1,1-ジメチルエチル)フェニル)-(4-(1,1-ジメチルエチル)-2-フェノキシ)-プロパン-1,3-ジイルジルコニウム(IV)ジクロライド)のトルエン溶液(濃度2.9mg/mL、4.7mL、13.7mg)を加え、常温で1時間攪拌することにより、固体触媒成分スラリーを調製した。得られた上澄み液を、試験例B26と同様にして分析した。その結果を表10に示す。
充分に窒素置換した内容積30mLの反応器に、試験例a3で調整したスラリー液(スラリー濃度=64mg/mL、7.5mL、482mg)とヘプタン(14.6mL)を装入した。このスラリーに、ジ-p-トリルメチレン(シクロペンタジエニル)(オクタメチルオクタヒドロジベンゾフルオレニル)ジルコニウム(IV)ジメチルのヘプタン溶液(濃度6.9mg/mL、2.6mL、18mg)を加え、常温で1時間攪拌した。次いで、トリイソブチルアルミニウム(TIBAL)のデカン溶液(濃度1.0mmol/mL、0.25mL、0.25mmol)を加え、常温で2時間攪拌することにより、固体触媒成分スラリーを調製した。得られた上澄み液を、試験例B26と同様にして分析した。その結果を表10に示す。
[試験例C1]
ファウリング評価用のテストピースを装着した内容積500mLのオートクレーブを充分に窒素置換した後、トリイソブチルアルミニウム(1.0Mトルエン溶液)をアルミニウム原子換算で0.075mmol加えたn-ヘプタン150mLを入れ、攪拌した。次いでアデカプルロニックL-71(ADEKA社製)のトルエン溶液(濃度6g/L)を1mL添加した。試験例B1で調整したオレフィン多量化用触媒(3.0μmol)をトルエン3mLで希釈したトルエンスラリーを反応器に加え、引き続きエチレン(分圧4.5MPa-G)で加圧して反応を開始した。同圧力でエチレンを供給しながら45-52℃で60分間反応させた後、少量のメタノールを添加することにより反応を停止した。反応終了後、0.1規定塩酸水および純水で反応液を洗浄し、反応液の上澄み成分をガスクロマトグラフィーで分析した。その後、反応液全量を減圧濾過することで、ポリエチレン粒子を回収した。テストピースに付着したポリエチレン粒子は別途回収した。回収したポリエチレン粒子は、それぞれ80℃で1時間減圧乾燥した後、重量を測定して生成量を求めた。その結果、生成物のうち1-ヘキセンの選択率は82%、デセン類の選択率は12%、ポリエチレンの選択率は6%であり、これらの生成物量合計から算出した触媒活性は22kg-生成物/(mmol-Ti・h)であった。また、ファウリング率は1%未満であった。
試験例B3で調製したオレフィン多量化用触媒を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。
試験例B4で調製したオレフィン多量化用触媒を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。
試験例B6で調製したオレフィン多量化用触媒(2.0μmol)を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。
試験例B9で調製したオレフィン多量化用触媒(2.0μmol)を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。
試験例b1で調製したオレフィン多量化用触媒のトルエンスラリーを用いた以外は試験例C1と同様に多量化反応を行った。その結果、生成物のうち1-ヘキセンの選択率は81%、デセン類の選択率は11%、ポリエチレンの選択率は8%であり、これらの生成物量合計から算出した触媒活性は10kg-生成物/(mmol-Ti・h)であった。また、ファウリング率は7%であった。副生ポリエチレンの粒度分布測定をした。検出限界(1408μm)より大きいポリエチレンが含まれていたため、均一性を求められなかった。
試験例b2で調製したオレフィン多量化用触媒のトルエンスラリーを用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。副生ポリエチレンの粒度分布測定をした。検出限界(1408μm)より大きいポリエチレンが含まれていたため、均一性を求められなかった。
試験例b3で調製したオレフィン多量化用触媒のトルエンスラリーを用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。副生ポリエチレンの粒度分布測定をした。検出限界(1408μm)より大きいポリエチレンが含まれていたため、均一性を求められなかった。
試験例b5で調整したオレフィン多量化用触媒(2.0μmol)を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。
試験例b7で調整したオレフィン多量化用触媒(2.0μmol)を用いた以外は試験例C1と同様に多量化反応を行った。結果を表11に示す。副生ポリエチレンの粒度分布測定をした。検出限界(1408μm)より大きいポリエチレンが含まれていたため、均一性を求められなかった。
[試験例C6]
充分に窒素置換した内容積1リットルのステンレス製オートクレーブに、ヘプタン(500mL)を装入し、系内をエチレン置換した後、1-ヘキセン(20mL)、トリイソブチルアルミニウム(0.375mmol)および試験例B23-2で得られた予備重合触媒成分(Zr=0.42μmol)を加え、系内の温度を80℃に昇温した。次いで、エチレンを連続的に導入することにより全圧0.8MPaG、80℃の条件で90分間重合反応を行った。濾過によりポリマーを回収し、減圧下、80℃で10時間乾燥することにより、エチレン・1-ヘキセン共重合体111.7gを得た。得られた重合体のメルトフローレート(MFR)は0.14g/10分、密度は927kg/m3、嵩密度は410kg/m3であった。
試験例b17-2で得られた予備重合触媒固体成分(Zr=0.55μmol)を用いた以外は、試験例C6と同様の条件にて重合反応を行い、エチレン・1-ヘキセン共重合体115.7gを得た。得られた重合体のメルトフローレート(MFR)は0.14g/10分、密度は927kg/m3、嵩密度は340kg/m3であった。
充分に窒素置換した50mLの枝付きフラスコに磁気攪拌子を入れ、これに試験例B24で調製した10.0wt%担持触媒スラリー(0.163g)を入れた。続いて、ここにトリイソブチルアルミニウムのヘキサン溶液(アルミニウム濃度1.0mol/L、1.5mL)および脱水ヘキサン5.0mLを加え、得られた混合物を全量、充分に窒素置換した内容量3,400mLのSUS製オートクレーブに導入した。その後、液体プロピレン750g、水素0.10NLを装入し、70℃で40分間重合を行った後、オートクレーブを冷却およびプロピレンをパージして重合を停止した。重合器内部の様子を確認した結果、重合器の撹拌軸や重合器内部に付着物は観察されなかった。得られたパウダー状のポリマーは80℃で10時間、減圧乾燥を行った。ポリマーの収量は141.8g、パウダーの嵩密度は0.44g/mLであった。またパウダーを目開き2mmの篩に通し、篩上の残留物の重さを測定した結果、5.32gであった。MFRは3.0g/10min、DSCで測定した融点は146℃で、1時間当たりの重合活性は13,050g/g-catであった。
試験例B24で調製した10.0wt%担持触媒スラリーを0.143g、水素の装入量を0.20NLに変更したこと以外は、試験例C7と同様の方法で重合とポリマーの乾燥を行った。重合器の撹拌軸や重合器内部に付着物は観察されず、パウダー状のポリマーが243.5g得られた。パウダーの嵩密度は0.45g/mL、目開き2mmの篩上の残留物の重さは2.48gであった。
試験例b18で調製した10.0wt%担持触媒スラリーを0.201g使用したこと以外は、試験例C7と同様の方法で重合とポリマーの乾燥を行った。重合器の撹拌軸周りにパウダーが凝集し、大塊状物のポリマーが186.7g得られた。ポリマーの嵩密度、および目開き2mmの篩上の残留物の重さは、塊状ポリマーのため測定できなかった。
試験例b18で調製した10.0wt%担持触媒スラリーを0.146g、水素の装入量を0.20NLに変更したこと以外は、試験例C7と同様の方法で重合とポリマーの乾燥を行った。重合器の撹拌軸周りにパウダーが凝集し、大塊状物のポリマーが177.3g得られた。ポリマーの嵩密度、および目開き2mmの篩上の残留物の重さは、塊状ポリマーのため測定できなかった。
室温、窒素気流下で、内容積1Lの攪拌機を付けたSUS製重合器に、精製デカン425mL、ジイソブチルアルミニウムハイドライドのデカン溶液(アルミニウム原子換算で1.0mmol/mL)を0.3mL装入した。次いで、試験例B25-2で調製した予備重合触媒成分のデカンスラリーをジルコニウム原子換算で0.0005mmol加え、水素を50mL装入した。次いで、4-メチル-1-ペンテン250mLと1-デセン3.3mLの混合液を2時間かけて重合器内へ連続的に一定の速度で装入した。装入開始時点を重合開始とした。重合開始から30分かけて45℃へ昇温した後、45℃で4時間保持した。重合開始から1時間後に水素を50mL、また2時間経過後に40mLをそれぞれ装入した。重合開始から4.5時間経過後、室温まで降温し、脱圧した後、ただちに白色固体を含む重合液を濾過して固体状重合体を得た。減圧下、80℃で8時間乾燥し、収量127gの重合体を得た。また、重合器内壁への付着はなかった。濾液は120℃で減圧乾燥して溶媒可溶部を得た。
室温、窒素気流下で、内容積1Lの攪拌機を付けたSUS製重合器に、デカン425mL、4-メチル-1-ペンテン42mL、ジイソブチルアルミニウムハイドライドのデカン溶液(アルミニウム原子換算で1.0mmol/mL)を0.3mL装入した。次いで、試験例B25-2で調製した予備重合触媒成分のデカンスラリーをジルコニウム原子換算で0.00025mmol加え、水素を80mL装入した。次いで、4-メチル-1-ペンテン208mLと1-デセン8.5mLの混合液を重合開始から2時間かけて重合器内へ連続的に一定の速度で装入した。装入開始時点を重合開始とした。重合開始から30分かけて45℃へ昇温した後、45℃で4時間保持した。重合開始から1時間後に水素を30mL、また2時間経過後に30mLをそれぞれ装入した。重合開始から4.5時間経過後、室温まで降温し、脱圧した後、ただちに白色固体を含む懸濁液を濾過して固体状重合体を得た。減圧下、80℃で8時間乾燥し、収量97.5gの重合体を得た。また、重合器内壁への付着はなかった。濾液は120℃で減圧乾燥して溶媒可溶部を得た。
試験例b19-2で調製した予備重合触媒成分を用いた以外は、試験例C9と同様の条件で重合反応を行い、収量150.2gの重合体を得た。
試験例b19-2で調製した予備重合触媒成分を用いた以外は、試験例C10と同様の条件で重合反応を行い、収量137.4gの重合体を得た。
充分に窒素置換した内容積1Lのステンレス製オートクレーブに、ヘプタン(500mL)を装入し、系内をエチレン置換した後、トリイソブチルアルミニウム(TIBAL)のデカン溶液(濃度1.0mmol/mL、0.25mL、0.25mmol)、L-71のヘプタン溶液(濃度4.0mg/mL、0.63mL、2.5mg)およびB26で得られた固体触媒成分(固体分16mg)を加え、系内の温度を75℃に昇温した。次いで、水素濃度1.25%のエチレン水素混合ガスを連続的に導入することにより全圧0.65MPaG、75℃の条件で60分間重合反応を行った。濾過によりポリマーを回収し、減圧下、80℃で10時間乾燥することにより、エチレン重合体51.3gを得た。得られた重合体の嵩密度は0.36g/mLであった。
B26で得られた固体触媒成分の代わりに、B27で得られた固体触媒成分(固体分15mg)を加えた以外は試験例C11と同様にして調製し、系内の温度を80℃に昇温した。次いで、水素濃度0.2%のエチレン水素混合ガスを連続的に導入することにより全圧0.80MPaG、80℃の条件で90分間重合反応を行った。濾過によりポリマーを回収し、減圧下、80℃で10時間乾燥することにより、エチレン重合体58.1gを得た。得られた重合体の嵩密度は0.40g/mLであった。
B26で得られた固体触媒成分の代わりに、B28で得られた固体触媒成分(固体分5mg)を加えた以外は試験例C11と同様にして調製し、系内の温度を80℃に昇温した。次いで、水素濃度0.2%のエチレン水素混合ガスを連続的に導入することにより全圧0.80MPaG、80℃の条件で120分間重合反応を行った。濾過によりポリマーを回収し、減圧下、80℃で10時間乾燥することにより、エチレン重合体26.1gを得た。得られた重合体の嵩密度は0.33g/mLであった。
B26で得られた固体触媒成分の代わりに、b20で得られた固体触媒成分(固体分16mg)を加えた以外は試験例C11と同様にして調製し、系内の温度を75℃に昇温した。次いで、水素濃度1.25%のエチレン水素混合ガスを連続的に導入することにより全圧0.65MPaG、75℃の条件で60分間重合反応を行った。濾過によりポリマーを回収し、減圧下、80℃で10時間乾燥することにより、エチレン重合体59.0gを得た。得られた重合体の嵩密度は0.17g/mLであった。
試験例B8によって得られたオレフィン多量化触媒を用いて、エチレンの多量化評価を行った。
Claims (18)
- ポリアルキルアルミノキサンおよびトリアルキルアルミニウムを含有し、
以下の方法(i)により測定した、25℃におけるn-ヘキサンに対する溶解度が0.50モル%未満であり、
以下の方法(ii)により測定した、25℃におけるトルエンに対する溶解度が1.0モル%未満であり、かつ
以下の方法(iii)により測定した、テトラヒドロフラン-d8可溶部における、該ポリアルキルアルミノキサン部位に由来するアルキル基および該トリアルキルアルミニウム部位に由来するアルキル基の合計のモル数に対する該トリアルキルアルミニウム部位に由来するアルキル基のモル分率が13モル%以上である、固体状ポリアルミノキサン組成物。
〔方法(i)〕
溶解度は、25℃に保持された50mLのn-ヘキサンに固体状ポリアルミノキサン組成物2gを加え、その後2時間の攪拌を行い、続いてろ過により、ろ液と残渣に分離して、ろ液中のアルミニウム濃度を、ICP発光分光分析法(ICP-AES)を用いて測定し、固体状ポリアルミノキサン組成物2gに相当するアルミニウム原子の量に対するろ液中に存在するアルミニウム原子の割合として求める。
〔方法(ii)〕
溶解度は、n-ヘキサンの代わりにトルエンを用いた以外は、前記方法(i)と同様の方法により求める。
〔方法(iii)〕
モル分率は、固体状ポリアルミノキサン組成物10mgに0.5mLのテトラヒドロフラン(THF)-d8(重溶媒)を加え、その後25℃で2時間の攪拌を行い、該THFへの可溶部を、測定温度24℃の条件下で、1H-NMR測定を用いて求める。 - さらに、以下の方法(iv)により測定した、25℃におけるテトラヒドロフランに対する溶解度が95モル%以下である、請求項1に記載の固体状ポリアルミノキサン組成物。
〔方法(iv)〕
溶解度は、n-ヘキサンの代わりにテトラヒドロフランを用いた以外は、前記方法(i)と同様の方法により求める。 - 前記ポリアルキルアルミノキサンが、ポリメチルアルミノキサンであり、トリアルキルアルミニウムが、トリメチルアルミニウムであり、かつ、
前記方法(iii)により測定した、テトラヒドロフラン-d8可溶部における、ポリメチルアルミノキサン部位に由来するメチル基およびトリメチルアルミニウム部位に由来するメチル基の合計のモル数に対するトリメチルアルミニウム部位に由来するメチル基のモル分率が、13モル%以上である、請求項1または2に記載の固体状ポリアルミノキサン組成物。 - 比表面積が、400~800m2/gの範囲であることを特徴とする請求項1~4のいずれか一項に記載の固体状ポリアルミノキサン組成物。
- 粒子状であり、体積統計値での中位径D50が0.1~100μmの範囲であることを特徴とする請求項1~5のいずれか一項に記載の固体状ポリアルミノキサン組成物。
- 下記式で表される均一性が0.27以下であることを特徴とする請求項1~6のいずれか一項に記載の固体状ポリアルミノキサン組成物。
(式)均一性 = ΣXi|D50-Di|/D50ΣXi
ここで、Xiは粒子iのヒストグラム値、D50は体積基準のメジアン径、Diは粒子iの体積基準径を示す。 - 請求項1~7のいずれか一項に記載の固体状ポリアルミノキサン組成物と、下記一般式(8)で表される(H)周期表律第3~10族から選ばれる1種の遷移金属原子を有する遷移金属化合物を接触させて得られる、オレフィン類の重合触媒。
R31R32R33R34M・・・(8)
(式中、Mは周期律表第3族~第10族から選ばれる遷移金属原子を示し、R31、R32、R33およびR34は、互いに同一でも異なっていてもよく、シクロペンタジエニル骨格を有する基、アルキル、シクロアルキル、アリール、アラルキル、アルコキシ、アリーロキシ、ハロゲン原子、アルキルシリル、アルキルアミド、アルキルイミド、-SO3Rまたは水素原子を示す。) - 請求項8に記載のオレフィン類の重合触媒の存在下にて、炭素原子数2~20のα-オレフィン、炭素原子数3~20の環状オレフィンおよび炭素原子数4~20のジエン化合物から選ばれる1種以上のオレフィンを重合する工程を含む、オレフィン重合体の製造方法。
- (A)ポリアルキルアルミノキサン、トリアルキルアルミニウムおよび炭化水素溶媒を含む溶液状ポリアルミノキサン組成物と、(B)周期律表第15~17族の元素を含む少なくとも1種の有機化合物を接触させる工程と、
加熱条件下で、該溶液状ポリアルミノキサン組成物(A)中に含まれるアルミニウム-炭素結合を有する化合物と、該有機化合物(B)を反応させて、固体状ポリアルミノキサン組成物を析出させる工程を含む、固体状ポリアルミノキサン組成物の製造方法。 - 前記析出させる工程の後に、さらに加熱熟成する工程を含む、請求項10に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記析出させる工程において、加熱が40℃以上である、請求項10または11に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記固体状ポリアルミノキサン組成物を加熱熟成する工程が、65~200℃の条件下でなされる、請求項11または12に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記(B)有機化合物が、(C)酸素原子を含む有機化合物である、請求項10~13のいずれか一項に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記(C)酸素原子を含む有機化合物が、(D)アルデヒドを含む有機化合物、(E)ケトンを含む有機化合物、(F)アルコールを含む有機化合物および(G)カルボン酸を含む有機化合物からなる群から選ばれる1種以上である、請求項14に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記(A)溶液状ポリアルミノキサン組成物中のトリアルキルアルミニウムが、トリメチルアルミニウムを含む、請求項10~16のいずれかに一項に記載の固体状ポリアルミノキサン組成物の製造方法。
- 前記(A)溶液状ポリアルミノキサン組成物中のポリアルキルアルミノキサンが、ポリメチルアルミノキサンであり、前記(A)溶液状ポリアルミノキサン組成物中のトリアルキルアルミニウムが、トリメチルアルミニウムである、請求項10~17のいずれか一項に記載の固体状ポリアルミノキサン組成物の製造方法。
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