TWI314145B - Chemical compounds - Google Patents

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TWI314145B
TWI314145B TW092136775A TW92136775A TWI314145B TW I314145 B TWI314145 B TW I314145B TW 092136775 A TW092136775 A TW 092136775A TW 92136775 A TW92136775 A TW 92136775A TW I314145 B TWI314145 B TW I314145B
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Taiwan
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cf2h
compound
group
cme
formula
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TW092136775A
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TW200422292A (en
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Josef Ehrenfreund
Clemens Lamberth
Hans Tobler
Harald Walter
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Syngenta Participations Ag
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    • C07ORGANIC CHEMISTRY
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    • C07D213/00Heterocyclic compounds containing six-membered rings, not condensed with other rings, with one nitrogen atom as the only ring hetero atom and three or more double bonds between ring members or between ring members and non-ring members
    • C07D213/02Heterocyclic compounds containing six-membered rings, not condensed with other rings, with one nitrogen atom as the only ring hetero atom and three or more double bonds between ring members or between ring members and non-ring members having three double bonds between ring members or between ring members and non-ring members
    • C07D213/04Heterocyclic compounds containing six-membered rings, not condensed with other rings, with one nitrogen atom as the only ring hetero atom and three or more double bonds between ring members or between ring members and non-ring members having three double bonds between ring members or between ring members and non-ring members having no bond between the ring nitrogen atom and a non-ring member or having only hydrogen or carbon atoms directly attached to the ring nitrogen atom
    • C07D213/60Heterocyclic compounds containing six-membered rings, not condensed with other rings, with one nitrogen atom as the only ring hetero atom and three or more double bonds between ring members or between ring members and non-ring members having three double bonds between ring members or between ring members and non-ring members having no bond between the ring nitrogen atom and a non-ring member or having only hydrogen or carbon atoms directly attached to the ring nitrogen atom with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to ring carbon atoms
    • C07D213/78Carbon atoms having three bonds to hetero atoms, with at the most one bond to halogen, e.g. ester or nitrile radicals
    • C07D213/81Amides; Imides
    • C07D213/82Amides; Imides in position 3
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    • A01N43/74Biocides, pest repellants or attractants, or plant growth regulators containing heterocyclic compounds having rings with nitrogen atoms and oxygen or sulfur atoms as ring hetero atoms five-membered rings with one nitrogen atom and either one oxygen atom or one sulfur atom in positions 1,3
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Description

1314145 玫、發明說明: 【發明所屬之技術領域】 本發明係關於作為活性成份之新潁羧醯胺衍生物,其具 有殺微生物活性,特別為殺真菌活性。本發明亦係關於這 些活性成份之製法,關於作為製備這些活性成份之中間物 之新穎二苯基衍生物,關於這些新穎中間物之製法,關於 含至少一種該新穎活性成份之農業化學組合物,關於這些 組合物之製法及關於各該活性成份或组合物在農業或園藝 中用以控制或預防植物經由植物致病微生物(通常為真菌) 侵害之用途。 【先前技術】 具殺真菌活性之羧醯胺衍生物揭示在日本專利 JP2001072510 , JP2001072508 , JP2001072507及JP2001302605中。 某些經胺基或函基取代之二苯基衍生物揭示在德國專萍q DE2205732 及日本專利 JP2001302605 中。 【發明内容】 本發明提供一種通式(I)化合物:
其中Het為含1至3種各獨立選自氧,氮及硫之雜原子之5-或 6-員雜環,但其限制條件為該環並非丨,2,3-三唑,該環可經 90273.doc 1314145 由1,2或3種Ry基團取代;Ri為氫,甲醯基,C()>_Ci_4烷基 COO-Cw燒基’ Cw燒氧基((^_4)伸燒基,c〇-Ci-4伸燒氧 基(C!-4)垸基’块丙基或丙二晞基;R2,R3,R4及R5各獨立 為氫’ _素,甲基或CF3 ;各R6獨立為鹵素,甲基或CF3 ; R 為(zuc^c^y1),(zhc^Yyc^KY3)或三(Cm)烷基矽烷 基;各1?/獨立為_素,Ci.3烷基,Cw _烷基,Cw烷氧基(CK3) 伸燒基或氰基;X為〇或s ; Y1,Y2及Y3各獨立為氫,鹵素 ’ Cl·6燒基[其可視需要經由一或多個各獨立選自函素,幾 基’ C!_4烷氧基’ Ci·4鹵烷氧基,Cw烷基硫,Ci-4鹵烷基硫 ’ CU4烷胺基,二(Cw)烷胺基’ Ci-4烷氧羰基,Ci-4烷基羰 氧基及三(Ci·4)烷基矽烷基之取代基取代],c2_4烯基[其可視 需要經由一或多個各獨立選自鹵素之取代基取代],C2-4炔 基[其可視需要經由一或多個各獨立選自自素之取代基取 代],C3_7環烷基[其可視需要經由一或多個各獨立選自鹵素 ,Ci-4烷基及Ci_4函烷基之取代基取代]或三((^_4)烷基矽烷 基;三為Cm伸烷基[其可視需要經由一或多個各獨立選自羥 基’氰基’ Ci-4垸氧基,鹵素,Ci_4鹵燒基,Ci.4鹵虎氧基 ’ 基硫,COOH及COO-Ci-4坑基之取代基取代];m為 0或1 ;及η為0,1或2。 在一特定方面中,本發明係提供一種如上文定義之通式 (I)化合物,其中Υ1,Υ2及Υ3各獨立為氫,_素,Cw烷基[其 可視需要經由一或多個各獨立選自鹵素,羥基,Cm烷氧基 ,Cw鹵烷氧基,Cm烷基硫,C!-4鹵烷基硫,(^_4烷胺基, 二(Ci-4)烷胺基,Cw烷氧羰基及三(Cw)烷基矽烷基之取代 90273.doc 1314145 基取代],C2-4婦基[其可視需要經由一或多個各獨立選自鹵 素之取代基取代],C2-4炔基[其可視需要經由一或多個各獨 立選自鹵素之取代基取代]’ C3-7環垸基[其可視需要經由一 或多個各獨立選自卣素,Cm烷基及Ct.4#垸基之取代基取 代]或三(¢^4)烷基矽烷基。 本發明一方面係提供一種如上文定義之通式⑴化合物, 其中乙為Cm伸烷基[其可視需要經由一或多個各獨立選自 羥基,氰基’ Cw烷氧基,Cm鹵烷氧基,Cm烷基硫,COOH 及COO-Cw烷基之取代基取代]。 本發明一方面係提供一種如上文定義之通式⑴化合物, 但其限制條件為當X為〇時,R7並非C2 6晞基;R1為氫;R2 ’ R3,R4及R5之一為氟,而其它皆為氫;η為i ;且^^為
本發明另—方面係提供一種如上文定義之通式(I)化合物 ,但其限制條件為當X為〇時,R7並非CW希基;R1,R2, R ’ R及R5皆為氫;且Het為
丫 本發明另—方面係提供一種如上文定義之通式(I)化合物 90273.doc -9- 1314145 ,但其限制條件為 r3Hr5皆為氫 篙X為〇時,R7並非C2-6缔基;Ri , R2, ;11為1 ;且Het為
F F F
N、 CH, 本發明又·Κ 、 乃—万面係提供一種如上文定義之通式⑴化合 • "限制條件為當X為〇時,R7並非在該4,位置處之6 締基’ Rl ’ R、R5皆為氟;R2及R4各獨立為氫或氟;η為〇 ,或11為1 ;或η為2,且這兩個獨立R6取代基在2,,3,或2,,5| 或3’,5’位置處;且Het為 ,
齒素為氟’氯,漠或碘[較佳為氟,氣或溴]。 各燒基邵份為直鏈或分支鏈,且其係、為,例如,甲基, 乙基,正-丙基,正_丁基,異_丙基,正-丁基,第二·丁基 ’異_丁基或第三·丁基。同樣’各伸燒基部份為直鏈或分支 函燒基部份為可經由—或多種相同或不同自原子取代之 燒基部份,且其係為,例如,CF3, CF2C1,咖2, cH2F, CC13 > cf3ch2 , chf2ch2 , CH2FCH2 5 CH3CHF4CH3CF2 〇 晞基及炔基部份可以呈直鏈或分支鏈型式。若適合,該 烯基部份可以具有雜)_或处構型。實例為乙締基,婦^ 90273.doc • 10 - 1314145 基’乙炔基,炔丙基。 環烷基包括環丙基,環丁基,環戊基,環己基,環庚基。 在三(C!—4)烷基矽烷基及二(Ci_4)烷胺基中,各烷基部份係 獨立選出。 本說明文從頭至尾’ Me表示甲基,Et表示乙基。
Het較佳為峨嗅’峨洛’ „塞吩’吱喃,ρ塞唆,異p塞峻,号 吐’兴u号唆’ p比淀’ p比畊,„密淀,噠畊,5,6_二氫峨喃或5,6_ 一鼠_ 1 ’ 4 -p号硫呼[更佳為u比吐,p比洛,p塞吩,咬喃,屢w坐, 噚唑,吡啶,嘧啶,噠畊或5,6_二氫吡喃;又更佳為吡唑, 叶匕洛’>»比咬或α塞唾;且又更佳為峨峻’说嘻或遠峻]。 在方面中,Het較佳為ρ比吨,j;比u各,ρ塞吩,咬喃,ρ塞吐 ’異"塞唑亏唑,異噚唑’吡畊,嘧啶’噠啩,5,6-二氫吡 喃或5,6-二氫-l,4-呤硫畊[更佳為吡唑,吡咯,嘧吩,呋喃 ,P塞唑,吟唑,嘧啶,噠啡或5,6-二氫吡喃,又更佳為p比吐 ,峨咯或違嗤]。 R較佳為氫’炔丙基’丙二締基,甲醯基,C〇Me,COEt 或 COCH2OMe。 R1更佳為氫。 R2較佳為氫。 R3較佳為氫。 R4較佳為氫。 R較佳為氫或_素。 R更佳為氫或氟。 R又更佳為氫。 90273.doc 1314145 在本發明一方面中,R7為三(Ci_4)烷基矽烷基。 y及γ較佳獨立為氫,鹵素,cj_6燒基,c 1 ·3鹵燒基 ,Ci-4(_烷氧基)Cl-4烷基,Ci4()i烷基硫)Ci-4烷基,三甲 基矽鴕基,C2-4烯基,C2-4鹵晞基或c3_6環烷基(其可視需要 由戍更多種各獨立選自鹵素,Ci_2燒基之取代基取代)。 z較佳為Cm伸烷基[其可視需要經由一或多種各獨立選 自齒素’ Cw鹵烷基&Cl_4鹵烷氧基之取代基取代]。 R7較佳在該4’位置處。 R較佳為乙缔基[其可視需要經由1至3種各獨立選自鹵 · 素’ Cw虎基,Cl_3鹵烷基,c3 6環烷基(其可視需要經由1 至5種各獨立選自鹵素,CH3&Ci_2鹵烷基之取代基取代)及 二甲基碎燒基之取代基取代],乙炔基[其可視需要經由一種 選自環丙基’環戊基及環己基(其可視需要各經1至5種各獨 互選自鹵素,CHjKCi-2鹵烷基之取代基取代),鹵素,Cl 6 燒基’ C!_4鹵烷基’ Cw缔基,(:2_4鹵烯基及三(c1-4)烷基矽 fe基之取代基取代],缔丙基[其可視需要經由1至3種各獨立 選自鹵素,CH3,Cw鹵烷基及三甲基矽烷基之取代基取代]籲 ’炔丙基[其可視需要經由1至3種各獨立選自鹵素,Ci4烷 基,Cm鹵烷基及三甲基矽烷基之取代基取代]或三(c“4)烷 基碎垸基。 在一特定方面中,R7較佳為乙浠基[其可視需要經由1至3 種各獨JL選自鹵素’ Cwfe基’ Ci_3鹵燒基,C:3_6環境其及;; 甲基矽烷基之取代基取代],乙炔基[其可视需要經由一種選 自鹵素,Cw烷基,C!-2鹵烷基,環丙基(其可视需要妒由J 一 90273.doc -12- 1314145 至5種各獨立選自鹵素,CH3,C!_2鹵烷基及三甲基矽烷基 之取代基取代)及三甲基矽烷基],炔丙基[其可視需要經由1 至3種各獨立選自鹵素,CH3, Cw鹵烷基及三甲基矽烷基 之取代基取代],块丙基(其可視需要經由1至3種各獨立選自 卣素,CH3,Cl-2鹵燒基及三甲基梦概基之取代基取代]或三 (Cij)烷基矽烷基。 在另一特定方面中,R7較佳為乙婦基[其可視需要經由1 至3種各獨立選自鹵素,CN4烷基,Cw鹵烷基,C3_6環烷基 及三曱基矽烷基之取代基取代],乙炔基[其可視需要經由1 種選自鹵素,CN4烷基,Cw鹵烷基及三曱基矽烷基之取代 基取代],炔丙基[其可視需要經由1至3種各獨立選自卣素, CH3,Cw鹵烷基及三甲基矽烷基之取代基取代],炔丙基[ 其可視需要經由1至3種各獨立選自鹵素,CH3,Cw鹵烷基 及三曱基矽烷基之取代基取代]或三(C^)烷基矽烷基。 R7 更佳為 CH=CH2,CH=CH(CH3),CH=CHSiMe3,CH=CF2 ,CH=CC12, C(CH3)=CC12, CH=CBr2, C(CH3)=CBr2, C(CH3)=CF2 ,CH=CFC1,CH=CFBr,C(CH3)=CFC1,C(CH3)=CFBr, CH=CFMe,CH=CBrMe,CH=CClMe,CH=CHBr,CH=CHF ,CH=CHC1,CH=CF2, CC1=CF2, CC1=CH2, CBr=CH2, CF=CH2 ,C(CF3)=CFBr,C(CF3)=CFa,C(CF3)=CBr2,C(CF3)=CC12 ,C(CF3)=CF2,C(CF3)=CH2,CF=CHF ’ CH=CHCF3, CH=CFCF2C1 > CH=CC1CF2C1 » CH=CBrCF2Cl > CH=C(CF3)2 ,ch=chc2f5,ch=chcf(cf3)2,c(ch3)=chcf3,c(ch3)=cfcf3 ,C(CH3)=CC1CF3, C(CH3)=CBrCF3, CH=CC1CF3, CH=CC1C2F5 90273.doc -13- 1314145 ,CH=CBrCF3,CH=CFC2F5,CH=CFCF3,CH2CH=CH2, CH2CH=CF2,CH2CH=CC12,CH2CH=CBr2,CH2CH=CFBr, CH2CH=CFCn,CH2CH=CC1CF3,CH2CH=CHSiMe3,C=CH ,C=CSiMe3,OCSiEt3,OCSiMe2C(CH3)3,C=CC1,C=CBr ,C=CF » C=CCF3 » C^CCF2H * C=CCF2C1 » C=CCF2Me * C=CCF2Et > C^CCHFCl » C=CCF2Br » C=CC2F5 » C=CCF(CF3)2 ,CeCCHF(CF3),C=CCH2F,C=CCH(Me)F,C=CCH(Et)F, C=CMe > C=CCH2Me » C=CCHMe2» C=CCH2CHMe2 > C=CCMe3 ,C=CCH2CMe3,OCCH2SiMe3,OCCMe2Cl,OCCMe2F » C=CCH2OMe » C=CCH2CF3 > C=CCMe2〇Me » C=CCMe2OH » C=CCMe2OCOMe > C=CC(Me)=CH2 » C=CCF=CF2 * C=C(^ 丙基)’ C=C(環戊基),OC(l-F-環戊基),ch2och,cf2c=ch ,CHFC^CH,CH(CF3)C=CH,SiMe3,CH2OCCMe3 或 CH2OCSiMe3。 在一特定方面中,R7更佳為CH=CH2,CH=CH(CH3), CH=CHSiMe3,CH=CF2,CH=CC12,C(CH3)=CC12,CH=CBr2 ,CF=CF2, CC卜CH2, CBr=CH2, CF=CH2, CF=CHF,CH=CHCF3 ,CH=CC1CF3,CH=CBrCF3,CH2CH=CH2,CH2CH=CHSiMe3 ^ C=CH * C=CSiMe3 * C^CSiEts » C=CSiMe2C(CH3)3 J C=CC1 » C=CBr > C=CC¥3 > C=CCF2H > C=CCF2C1 > C=CCF2Br > C=CCF(CF3)2C=CMe > C=CCHMe2 > C^CCMe3 > C=CCMe2Cl » C=CCH2OMe » C=C(^C3H5) * C=C(if C5H9) » CH2C=CH » SiMe3或 CH2C=CSiMe3。 R7 又更佳為 CH=CF2,CH=CC12,C(CH3)=CC12,CH=CBr2 90273.doc -14- 1314145 ,C(CH3)=CBr2,C(CH3)=CF2,CH=CFC1,CH=CFBr, C(CH3)=CFC1,C(CH3)=CFBr,CH=CHBr,CH=CHF,CH=CHC1 ,CC1=CH2,CH=CHCF3,CH=CFCF2C1,CH=CC1CF2C卜 CH=CBrCF2Cn,ch=c(cf3)2,ch=chc2f5,ch=chcf(cf3)2 ,c(ch3)=chcf3,ch=ccicf3,ch=ccic2f5,ch=cfc2f5 ,CH=CBrCF3,CH=CFCF3,CH2CH=CC1CF3,CH2CH=CC12 » CH2CH=CBr2» C=CH» C=CSiMe3 > C=CSiEt3» C=CSiMe2C(CH3)3 > C=CC1 > C=CCF3 » C=CCF2H » C^CCF2C1 » CsCCHFCl » C=CCF2Me^ C=CCF2Et> C^CCHFEt» G=CCF2Br> C=CCF(CF3)2 > C=CCF2CF3 » C=CCHF(CF3) * C=CCH2F » C=CCH(Me)F > C^CMe» CsCCHMe2» C=CCH2Me2J C=CCH2CHMe2» C=CCMe3 ,C=CCH2CMe3,C=CCMe2F,C=CCH2CF3,C=C(環丙基), C^C(if ^ C=C(l-F-?f > C=CC(Me)=CH2 ^ C=CCF=CF2 ,C=CCH2SiMe3,CH2C=CH,CF2OCH或 CHFOCH。 在一特定方面中,R7又更佳為CH=CH2,CH=CHSiMe3, CH=CF2,CH=CC12,CH=CBr2,CF=CF2,CC卜CH2,CBr=CH2 > CF=CHF ^ CH=CHCF3 » CH=CC1CF3 » C=CH > C=CSiMe3 > C=CC1' C^CBr > C^CCFs ' C=CMe » C=CCMe3 1 C=CCHMe2 ,ce(環 C3H5),CH2CeCH,SiM3或 CH2OCSiMe3。
R7 又更佳為 CH=CF2,CH=CC12,CH=CBr2,CH=CFC1, CH=CFBr,CH=CHBr,CH=CHF,CH=CHCn,CC1=CH2, CH=CHCF3,CH=CFCF2C1,CH=CC1CF2C1,CH=CBrCF2Cl ,CH=C(CF3)2,CH=CHC2F5,CH=CC1CF3,CH=CBrCF3, CH=CFCF3 > C^CH > C=CSiMe3 > C=CC1 > C=CCF3 » C=CCF2H 90273.doc • 15- 1314145 ,C=CCHFC1 ^ C=CCHF(CF3) > C=CCF2C1 > C=CCF2Me ^ C=CCF2Br » C=CCF2CF3 ^ C=CCH2F ^ C=CCH(Me)F > C^CMe ,OCCHMe2,C=CCH2CHMe2,C^CCMe3,OCCCH2CMe3 ,C^CCMe2F ,C=CCH2CF3,CsC(環丙基),環戊基), C^C(1-F-環戊基),CH2C=CH » CF2C=CH , CHFC=CH ^ OCCH2Me。 在一特定方面中,R7又更佳為CH=CHSiMe3,CH=CF2, CH=CC12,CH=CBr2,CF=CF2,CC1=CH2,CBr=CH2,CF=CHF » CH=CHCF3 » CH=CC1CF3 > C=CH » C=CSiMe3» C^CCl» C=CBr » C=CCF3 j C=CMe » C=CCMe3 » C=CCHMe2 > C=C(if C3H5) ,CH2C=CH,SiMe3或 CH2OCSiMe3 〇 該Het環中之氮原子較佳可獨立未經取代或經Ry取代。 當1^為氮原子上之取代基時,其較佳為Cw烷基,Cw鹵 烷基或甲氧基亞甲基;更佳為Cw烷基,CF3,CF2C1,CHF2 ,ch2f或甲氧基亞甲基;又更佳為甲基,chf2或甲氧基亞 甲基;還更佳為曱基或甲氧基亞甲基;最佳為甲基。 該Het環中之碳原子(其未與該可經由CXNR1取代之原子 鍵結)較佳可獨立未經取或經Ry取代。 當Ry*碳原子(其未與該經由CXNR1取代之原子鍵結)上 之取代基時,其較佳為鹵素,烷基,鹵烷基或甲氧 基亞甲基;更佳為氣基,甲氧基亞甲基,CH3,CHF2,或 CF3 ;又更佳為氯基,CH3,CHF2或CF3 ;且還更佳為CH3 或CF3。該Het環中可以有1或2個碳原子與該經由CXNR1取 代之原子键結;此種碳原子較佳可獨立未經取代或經1^取 90273.doc -16- 1314145 代。 當R/為碳原子(其與該經由(:乂1^尺1取代之原子鍵結)上之 取代基時,其較佳為鹵素,Cm烷基或鹵烷基;更佳為 氯,氟,溴,Cu燒基,CF3,CF2C1,CHF2,CH2F ;且又 更佳為氯基,氟基,溴基,甲基,CF3,chf2或CH2F。 更佳為,當該Het環中僅有一個碳原子與該經由CXNR1 取代之原子鍵結時’該碳_原子可經由Ry取代。 更佳為,當該Het環中有兩個碳原子與該經由CXNR1取代 之原子鍵結時’其中一個碳原子可經由Ry取代,而另一個 碳原子可未經取代或經由氟基,氯基或甲基取代。 m較佳為0。 η較佳為0。 X較隹為0。 通式(Π)化合物:
R
R (其中R1,R2,R3,R4,R5,R6,R7及η如上文通式⑴化合物 之定義)亦為新穎化合物[除了其中R1 ’ r2,r3 ’ r4&r5各為 氫,η為0且R7為CH=CHCH2C〇2H之該通式(11)化合物外]’ 且可作用製備該通式(I)化合物之中間物° 90273.doc • 17- 1314145
因此,本發明另一方面係楹徂 ^ L 诉杈供一種通式(II)化合物,其中
Ri,R2,R3,R4,R5,R6 7 K及n如上又通式(I)化合物之定 義,但其限制條件為當R1,R2,R3 R 4 5 K R及尺各為氫,且η為0 時,R7並非 CH=CHCH2C〇2h。 通式(Π)化合物之Ri,R2,r3,r4,r5,r6,R^n之較佳 值如上文通式(I)化合物之定義β 許多通式(III)化合物: R3 r2\Jv /R4
(III)
(其中R2,R3,R4 ’ R5,R6,R7及n如上文通式(I)化合物之 定義,且Hal為溴基’氯基或碘基)亦為新穎化合物,且可 作為製備通式(I)化合物之中間物。 某些通式(ΠΙ)化合物係已知;表〇顯示已知的通式(Ilia) 化合物,其中Hal ’ R2 ’ R3,R4及R7如表〇内之定義。
(Ilia) 9〇273.do, -18- 1314145 表ο
Hal R2 R3 R4 R7 Cl Cl H H C(CH3)=CH-CH2-OH Br H Me H C(CF3)=CF2 Br H Me Br c(cf3)=cf2 Cl H H H C::CH Cl H H H ch=ch-ch2-ch2-oh Cl H H H C(CH3)=CH-CH2-OH Cl H H H C(CH3)=CH-C(=0)-0C2H5 Cl H H H C(CH3)=CH-CH(OH)CH3 Cl H H H CH=CH-CH(OH)CH3 因此,本發明另一方面係提供一種通式(III)化合物,其 中R2,R3,R4,R5,R6,R7及η如上文通式(I)化合物之定義 ,且Hal為溴基,氣基或碘基;但其限制條件為該化合物並 非根據表0之通式(Ila)化合物。 通式(III)化合物之R2,R3,R4,R5,R6,R7及η之較佳值 如上文通式(I)化合物之定義。
Hal較佳為溴基或氣基。
Hal更佳為溴基。 該通式(I),(II)及(ΠΙ)化合物可以呈不同幾何或光學異構 物或不同互變異構物型式存在。就各通式而言,本發明涵 蓋呈所有比例之全部此種異構物及互變異構物及其混合物 ,與同位素型式,例如,氮化化合物。 下表1至13内各該化合物表示本發明化合物。 表1 化合物 號數 R1 R7 R8 R9 R10 X 1,01 H C::CH H Me cf3 0 1.02 H C::CH H Me cf3 s 1.03 H C::CH H Me cf2h 0 90273.doc -19· 1314145 1.04 炔丙基 C::CH H Me cf3 0 1.05 Η C::CH H Me Me 0 1.06 Η C::CH H CH2OMe cf3 0 1.07 丙二烯基 C::CH H Me cf3 0 1.08 Η C::CSiMe3 H Me cf3 0 1.09 Η C::CSiMe3 H Me cf3 0 1.10 Η C::CSiMe3 H Me cf2h 0 1.11 Η C::CSiMe3 F Me Me 0 1.12 Η C::CC1 H Me cf3 0 1.13 Η C::CC1 H Me cf2h 0 1.14 Η C::CC1 F Me Me 0 1.15 Η C::CBr H Me cf3 0 1.16 Η C::CBr H Me cf2h 0 1.17 Η C::CBr F Me Me 0 1.18 Η c::ccf3 H Me cf3 0 1.19 Η c::ccf3 H Me cf2h 0 1.20 Η c::ccf3 F Me Me 0 1.21 丙二烯基 c::ccf3 H Me cf3 0 1.22 Η ch=ch2 H Me cf3 0 1.23 Η ch=ch2 H Me cf3 s 1.24 Η ch=ch2 H Me cf2h 0 1.25 炔丙基 ch=ch2 H Me cf3 0 1.26 Η ch=ch2 F Me Me 0 1.27 Η ch=ch2 H CH2OMe cf3 0 1.28 丙二晞基 ch=ch2 H Me cf3 0 1.29 Η ch=cf2 H Me cf3 0 1.30 Η ch=cf2 H Me cf2h 0 1.31 Η ch=cf2 F Me Me 0 1.32 Η ch=cci2 H Me cf3 0 1.33 Η ch=cci2 H Me cf2h 0 1.34 Η ch=cci2 F Me Me 0 1.35 Η CH=CBr2 H Me cf3 0 90273.doc -20- 1314145 1.36 Η CH=CBr2 H Me cf2h o 1.37 Η CH=CBr2 F Me Me 0 1.38 Η cf=cf2 H Me cf3 0 1.39 Η cf=cf2 H Me cf2h 0 1.40 Η cf=cf2 F Me Me 0 1.41 Η cci=ch2 H Me cf3 0 1.42 Η cci=ch2 H Me cf2h 0 1.43 Η cci=ch2 F Me Me 0 1.44 Η CBr=CH2 H Me cf3 0 1.45 Η CBr=CH2 H Me cf2h 0 1.46 Η CBr=CH2 F Me Me 0 1.47 Η CF=CHF H Me cf3 0 1.48 Η CF=CHF H Me cf2h 0 1.49 Η CF=CHF F Me Me 0 1.50 Η CH=CHSiMe3 H Me cf3 0 1.51 Η CH=CHSiMe3 H Me cf2h 0 1.52 Η CH=CHSiMe3 F Me Me 0 1.53 Η ch=chcf3 H Me cf3 0 1.54 Η ch=chcf3 H Me cf2h 0 1.55 Η ch=chcf3 F Me Me 0 1.56 Η ch=ccicf3 H Me cf3 0 1.57 Η ch=ccicf3 H Me cf2h 0 1.58 Η ch=ccicf3 F Me Me 0 1.59 Π ch2c::ch H Me cf3 0 1.60 Η ch2c::ch H Me cf2h 0 1.61 Η ch2c::ch F Me Me 0 1.62 Η ch2c::ch H CH2OMe cf3 0 1.63 Η CH2C::CSiMe3 H Me cf3 o 1.64 Η CH2C::CSiMe3 H Me cf2h 0 90273.doc -21- 1314145 1.65 Η CH2C::CSiMe3 F Me Me 0 1.66 Η C::CCMe3 H Me cf3 0 1.67 Η C::CCMe3 H Me cf2h 0 1.68 Η C::CCMe3 F Me Me 0 1.69 Η C::CMe H Me cf3 0 1.70 Η C::CMe H Me cf2h 0 1.71 Η C::CMe F Me Me 0 1.72 COMe C::CH H Me cf3 0 1.73 Η C::CH H cf2h cf2h 0 1.74 Η C::CH H cf2h cf3 0 1.75 Η C::CH H Me ch2f 0 1.76 Η C::CSiMe3 H Me ch2f 0 1.77 Η c::c(環丙基) H Me cf3 0 1.78 Η c::c(環丙基) H Me chf2 0 1.79 Η SiMe3 H Me ch2f 0 1.80 Η SiMe3 H Me cf3 0 1.81 Η SiMe3 H Me chf2 0 1.82 COMe C::CF H Me cf3 0 1.83 Η C::CF H Me cf2h 0 1.84 Η C::CF F Me Me 0 1.85 Η C::CCF2C1 H Me cf3 0 1.86 Η c::ccf2ci H Me cf2h 0 1.87 Η c::ccf2ci F Me Me o 1.88 Η c::ccf2h H Me cf3 0 1.89 Η c::ccf2h H Me cf2h 0 1.90 Η c::ccf2h F Me Me 0 1.91 Η C::CCF2Br H Me cf3 0 1.92 COMe C::CCF2Br H Me cf2h 0 1.93 Η C::CCF2Br F Me Me 0 90273.doc -22- 1314145 1.94 Η c::cch2f H Me cf3 0 1.95 Η c::cch2f H Me cf2h 0 1.96 Η c::cch2f F Me Me 0 1.97 Η C::CCH(Me)F H Me cf3 0 1.98 Η C::CCH(Me)F H Me cf2h 0 1.99 Η C::CCH(Me)F F Me Me 0 1.100 Η C::CC(Me)2F H Me cf3 0 1.101 Η C::CC(Me)2F H Me cf2h 0 1.102 Η C::CC(Me)2F F Me Me 0 1.103 Η C::CCH2C(Me)3 H Me cf3 0 1.104 Η C::CCH2C(Me)3 H Me cf2h 0 1.105 Η C::CCH2C(Me)3 F Me Me 0 1.106 Η C::CCH(Me)2 H Me cf3 0 1.107 Η C::CCH(Me)2 H Me cf2h 0 1.108 Η C::CCH(Me)2 F Me Me 0 1.109 Η C::CCH2CH(Me)2 H Me cf3 0 1.110 Η C::CCH2CH(Me)2 H Me cf2h 0 1.111 Η C::CCH2CH(Me)2 F Me Me 0 1.112 Η CH2C::CCMe3 H Me cf3 0 1.113 Η CH2C::CCMe3 H Me cf2h 0 1.114 Η CH2C::CCMe3 F Me Me 0 1.115 Η CF2C::CCMe3 H Me cf3 0 1.116 Η CF2C::CCMe3 H Me cf2h 0 1.117 Η CF2C::CCMe3 F Me Me 0 1.118 Η CF2C::CMe H Me cf3 0 1.119 Η CF2C::CMe H Me cf2h 0 1.120 Η CF2C::CMe F Me Me 0 1.121 Η CF2C::CH H Me cf3 0 90273.doc -23- 1314145 1.122 Η CF2C::CH H Me cf2h 0 1.123 Η cf2c::ch F Me Me 0 1.124 Η CMe2C::CH H Me cf3 0 1.125 Η CMe2C::CH H Me cf2h 0 1.126 Η CMe2C::CH F Me Me 0 1.127 Η CHFC::CH H Me cf3 0 1.128 Η CHFC::CH H Me cf2h 0 1.129 Η CHFC::CH F Me Me 0 1.130 Η CHMeC::CH H Me cf3 0 1.131 Η CHMeC::CH H Me cf2h 0 1.132 Η CHMeC::CH F Me Me 0 1.133 Η CH(CF3)C::CH H Me cf3 0 1.134 Η CH(CF3)C::CH H Me cf2h 0 1.135 Η CH(CF3)C::CH F Me Me 0 1.136 Η C::C(1-F-環戊基) H Me cf3 0 1.137 Η C::C(1-F-環戊基) H Me chf2 0 1.138 Η C::CCH2OMe H Me cf3 0 1.139 Η C::CCH2OMe H Me cf2h 0 1.140 Η C::CCH2OMe F Me Me 0 1.141 Η C::CCMe2OMe H Me cf3 0 1.142 Η C::CCMe2OMe H Me cf2h 0 1.143 Η C::CCMe2OMe F Me Me 0 1.144 Η C::CCMe2OCOMe H Me cf3 0 1.145 Η C::CCMe2OCOMe H Me cf2h 0 1.146 Η C::CCF2Me H Me cf3 0 1.147 Η C::CCF2Me H Me cf2h 0 1.148 Η C::CCF2Me F Me Me 0 1.149 Η C:_CC(Me)=CH2 H Me cf3 〇 90273.doc -24- 1314145 1.150 Η C::CC(Me)=CH2 H Me cf2h 0 1.151 Η CH=CFC1 H Me cf3 0 1.152 Η CH=CFC1 H Me cf2h 0 1.153 Η CH=CFC1 F Me Me 0 1.154 Η CH=CFBr H Me cf3 0 1.155 Η CH=CFBr H Me cf2h 0 1.156 Η CH=CFBr F Me Me 0 1.157 Η CH=CHBr H Me cf3 0 1.158 Η CH=CHBr H Me cf2h 0 1.159 Η CH=CHBr F Me Me 0 1.160 Η CH=CHF H Me cf3 0 1.161 Η CH=CHF H Me cf2h 0 1.162 Η CH=CHF F Me Me 0 1.163 Η CMe=CHCF3 H Me cf3 0 1.164 Η CMe=CHCF3 H Me cf2h 0 1.165 Η CMe=CHCF3 F Me Me 0 1.166 Η ch=cfcf3 H Me cf3 0 1.167 Η ch=cfcf3 H Me cf2h 0 1.168 Η ch=cfcf3 F Me Me 0 1.169 Η CH=CBrCF3 H Me cf3 0 1.170 Η CH=CBrCF3 H Me cf2h 0 1.171 Η CH=CBrCF3 F Me Me 0 1.172 Η ch=chc2f5 H Me cf3 0 1.173 Η ch=chc2f5 H Me cf2h 0 1.174 Η ch=chc2f5 F Me Me 0 1.175 Η CH=CHC1 H Me cf3 0 1.176 Η CH=CHC1 H Me cf2h 0 1.177 Η CH=CHC1 F Me Me 0 1.178 Η CH=C(CF3)2 H Me cf3 0 1.179 Η CH=C(CF3)2 H Me cf2h 0 90273.doc -25- 1314145 1.180 Η CH=C(CF3)2 F Me Me 0 1.181 Η CMe=CFCl H Me cf3 0 1.182 Η CMe=CFCl H Me cf2h 0 1.183 Η CMe=CFCl F Me Me 0 1.184 Η CMe=CFBr H Me cf3 0 1.185 Η CMe=CFBr H Me cf2h 0 1.186 Η CMe=CFBr F Me Me 0 1.187 Η CMe=CF2 H Me cf3 0 1.188 Η CMe=CF2 H Me cf2h 0 1.189 Η CMe=CF2 F Me Me o 1.190 Η CMe=CCl2 H Me cf3 0 1.191 Η CMe=CCl2 H Me cf2h 0 1.192 Η CMe=CCl2 F Me Me 0 1.193 Η CMe=CBr2 H Me cf3 0 1.194 Η CMe=CBr2 H Me cf2h 0 1.195 Η CMe=CBr2 F Me Me 0 1.196 Η CMe=CFCF3 H Me cf3 0 1.197 Η CMe=CFCF3 H Me cf2h 0 1.198 Η CMe=CFCF3 F Me Me 0 1.199 Η CMe=CClCF3 H Me cf3 0 1.200 Η CMe=CClCF3 H Me cf2h 0 1.201 Η CMe=CClCF3 F Me Me 0 1.202 Η ccf3=cf2 H Me cf3 0 1.203 Η ccf3=cf2 H Me cf2h 0 1.204 Η ccf3=cf2 F Me Me 0 1.205 Η ccf3=cci2 H Me cf3 0 1.206 Η ccf3=cci2 H Me cf2h 0 1.207 Η ccf3=cci2 F Me Me 0 1.208 Η CCF3=CBr2 H Me cf3 0 1.209 Η CCF3=CBr2 H Me cf2h 0 90273.doc -26- 1314145 1.210 Η CCF3=CBr2 F Me Me 0 1.211 Η ccf3=ch2 H Me cf3 0 1.212 Η ccf3=ch2 H Me cf2h 0 1.213 Η ccf3=ch2 F Me Me 0 1.214 Η CCF3=CFBr H Me cf3 0 1.215 Η CCF3=CFBr H Me cf2h 0 1.216 Η CCF3=CFBr F Me Me 0 1.217 Η ccf3=chf H Me cf3 o 1.218 Η ccf3=chf H Me cf2h 0 1.219 Η ccf3=chf F Me Me 0 1.220 Η ccf3=cfci H Me cf3 0 1.221 Η ccf3=cfci H Me cf2h 0 1.222 Η ccf3=cfci F Me Me 0 1.223 Η ccf3=chci H Me cf3 0 1.224 Η ccf3=chci H Me cf2h 0 1.225 Η ccf3=chci F Me Me 0 1.226 Η ch=cfcf2ci H Me cf3 0 1.227 Η ch=cfcf2ci H Me cf2h 0 1.228 Η ch=cfcf2ci F Me Me 0 1.229 Η ch=ccicf2ci H Me cf3 0 1.230 Η ch=ccicf2ci H Me cf2h 0 1.231 Η ch=ccicf2ci F Me Me 0 1.232 Η ch2cf=cf2 H Me cf3 0 1.233 Η ch2cf=cf2 H Me cf2h 0 1.234 Η ch2cf=cf2 F Me Me 0 1.235 Η CF=CFBr H Me cf3 0 1.236 Η CF=CFBr H Me cf2h 0 1.237 Η CF=CFBr F Me Me 0 1.238 Η CH2CH=CF2 H Me cf3 0 1.239 Η ch2ch=cf2 H Me cf2h 0 90273.doc •27- 1314145 1.240 Η CH2CH=CF2 F Me Me 0 1.241 Η ch2ch=cci2 H Me cf3 0 1.242 Η ch2ch=cci2 H Me cf2h 0 1.243 Η ch2ch=cci2 F Me Me 0 1.244 Η CH2CH=CBr2 H Me cf3 0 1.245 Η CH2CH=CBr2 H Me cf2h 0 1.246 Η CH2CH=CBr2 F Me Me 0 1.247 Η CC1=CF2 H Me cf3 0 1.248 Η cci=cf2 H Me cf2h 0 1.249 Η cci=cf2 F Me Me 0 1.250 Η C::CCMe2OH H Me cf3 0 1.251 Η C::CCMe2OH H Me cf2h 0 1.252 Η C::CSi(Me2)CMe3 H Me cf3 0 1.253 Η C::CSi(Me2)CMe3 H Me cf2h o 1.254 Η C::CCH2SiMe3 H Me cf3 0 1.255 Η C::CCH2SiMe3 H Me cf2h 0 1.256 Η C::CCH2SiMe3 F Me Me 0 1.257 Η C::CCMe3 H cf2h cf3 0 1.258 Η C::CCH2CF3 H Me cf3 0 1.259 Η c::cch2cf3 H Me cf2h 0 1.260 Η c::cch2cf3 F Me Me 0 1.261 Η C::CCMe3 H cf2h cf2h 0 1.262 Η C::CCH2CH3 H Me cf3 0 1.263 Η c::cch2ch3 H Me cf2h 0 1.264 Η c::cch2ch3 F Me Me 0 1.265 Η c::ccf=cf2 H Me cf3 0 1.266 Η c::ccf=cf2 H Me cf2h 0 1.267 Η C::CCHFC1 H Me cf3 0 1.268 Η C::CCHFC1 H Me cf2h 0 90273.doc -28- 1314145 1.269 Η C::CCHFC1 F Me Me 0 1.270 Η CH=CFC2F5 H Me cf3 0 1.271 Η ch=cfc2f5 H Me cf2h 0 1.272 Η ch=cfc2f5 F Me Me 0 1.273 Η c::ccf2ch2ch3 H Me cf3 0 1.274 Η c::ccf2ch2ch3 H Me cf2h 0 1.275 Η c::ccf2ch2ch3 F Me Me 0 1.276 Η c::cchfch2ch3 H Me cf3 0 1.277 Η c::cchfch2ch3 H Me cf2h 0 1.278 Η c::cchfch2ch3 F Me Me 0 1.279 Η C::CCF(CF3)2 H Me cf3 0 1.280 Η C::CCF(CF3)2 H Me cf2h 0 1.281 Η c::ccf(cf3)2 F Me Me 0 1.282 Η ch=ccic2f5 H Me cf3 0 1.283 Η ch=ccic2f5 H Me cf2h 0 1.284 Η ch=ccic2f5 F Me Me 0 1.285 Η c::cc2f5 H Me cf3 0 1.286 Η c::cc2f5 H Me cf2h 0 1.287 Η c::cc2f5 F Me Me 0 表1提供287種通式(la)化合物:
其中R1,R7,R8,R9,R10及X如表1内之定義。 表1提供287種通式(IaA)化合物: 90273.doc -29- 1314145
其中R1,R7,R8,R9,R10及X如表1内之定義。 表1提供287種通式(IaB)化合物,其中R1,R7,R8,R R1G及X如表1内之定義。
表1提供287種通式(IaC)化合物,其中R1,R7,R8,R R1Q及X如表1内之定義。
F
CI 表1提供287種通式(IaD)化合物,其中R1,R7,R8,R R1Q及X如表1内之定義。 90273.doc -30- 1314145
F
(laD) 表1提供287種通式(IaE)化合物,其中R1,R7,R8,R9, R1Q及X如表1内之定義。
F
r9 (IaE)
表1提供287種通式(IaF)化合物,其中R1,R7,R8,R9, R1G及X如表1内之定義。
F
(IaF) 表1提供287種通式(IaG)化合物,其中R1,R7,R8,R9, R1Q及X如表1内之定義。 90273.doc -31- 1314145
Cl K (laG) 表1提供287種通式(IaH)化合物,其中R1,R7,R8,R5 R10及X如表1内之定義。
R (IaH) 表1提供287種通式(Ial)化合物,其中R1,R7,R8,R9 R1G及X如表1内之定義。
1R
F 表1提供287種通式(IaJ)化合物,其中R1,R7,R8,R9 R1G及X如表1内之定義。 90273.doc -32- 1314145
(laJ) 表2 化合物 號數 R1 R7 R8 R9 R10 X 2.01 Η C::CH H Me cf3 0 2.02 Η C::CH H Me cf3 s 2.03 Η C::CH H Me cf2h 0 2.04 炔丙基 C::CH H Me cf3 0 2.05 Η C::CH F Me Me 0 2.06 Η C::CH H CH2OMe cf3 0 2.07 丙二基 C::CH H Me cf3 0 2.08 Η C::CSiMe3 H Me cf3 0 2.09 Η C::CSiMe3 H Me cf3 s 2.10 Η C::CSiMe3 H Me cf2h 0 2.11 Η C::CSiMe3 F Me Me 0 2.12 Η C::CC1 H Me cf3 0 2.13 Η C::CC1 H Me cf2h 0 2.14 Η C::CC1 F Me Me 0 2.15 Η C::CBr H Me cf3 0 2.16 Η C::CBr H Me cf2h 0 2.17 Η C::CBr F Me Me 0 90273.doc -33- 1314145 2.18 Η c::ccf3 H Me cf3 0 2.19 Η c::ccf3 H Me cf2h 0 2.20 Η c::ccf3 F Me Me 〇 2.21 丙_^稀基 c::ccf3 H Me cf3 0 2.22 Η ch=ch2 H Me cf3 0 2.23 Η ch=ch2 H Me cf3 s 2.24 Η ch=ch2 H Me cf2h 0 2.25 块丙基 ch=ch2 H Me cf3 0 2.26 Η ch-ch2 F Me Me 0 2.27 Η ch=ch2 H CH2OMe cf3 0 2.28 丙二晞基 ch=ch2 H Me cf3 0 2.29 Η ch=cf2 H Me cf3 0 2.30 Η ch=cf2 H Me cf2h 0 2.31 Η ch=cf2 F Me Me 0 2.32 Η ch=cci2 H Me cf3 0 2.33 Η ch=cci2 H Me cf2h 0 2.34 Η ch=cci2 F Me Me 0 2.35 Η CH=CBr2 H Me cf3 0 2.36 Η CH=CBr2 H Me cf2h 0 2.37 Η CH=CBr2 F Me Me 0 2.38 Η cf=cf2 H Me cf3 0 2.39 Η cf=cf2 H Me cf2h 0 2.40 Η cf=cf2 F Me Me 0 2.41 Η cci=ch2 H Me cf3 0 2.42 Η cci=ch2 H Me cf2h 0 2.43 Η cci=ch2 F Me Me 0 2.44 Η CBr=CH2 H Me cf3 0 2.45 Η CBr=CH2 H Me cf2h 0 2.46 Η CBr=CH2 F Me Me 0 2.47 Η CF=CHF H Me cf3 〇 90273.doc -34- 1314145 2.48 Η CF=CHF H Me CF2H 0 2.49 Η CF=CHF F Me Me 0 2.50 Η CH=CHSiMe3 H Me cf3 0 2.51 Η CH=CHSiMe3 H Me cf2h 0 2.52 Η CH=CHSiMe3 F Me Me 0 2.53 Η ch=chcf3 H Me cf3 0 2.54 Η ch=chcf3 H Me cf2h 0 2.55 Η ch=chcf3 F Me Me 0 2.56 Η ch=ccicf3 H Me cf3 0 2.57 Η ch=ccicf3 H Me cf2h 0 2.58 Η ch=ccicf3 F Me Me 0 2.59 Η ch2c::ch H Me cf3 o 2.60 Η ch2c::ch H Me cf2h 0 2.61 Η ch2c::ch F Me Me 0 2.62 Η ch2c::ch H CH2OMe cf3 0 2.63 Η CH2C::CSiMe3 H Me cf3 0 2.64 Η CH2C::CSiMe3 H Me cf2h 0 2.65 Η CH2C::CSiMe3 F Me Me 0 2.66 Η C::CCMe3 H Me cf3 0 2.67 Η C::CCMe3 H Me cf2h 0 2.68 Η C::CCMe3 F Me Me 0 2.69 Η C::CMe H Me cf3 0 2.70 Η C::CMe H Me cf2h 0 2.71 Η C::CMe F Me Me 0 2.72 COMe C::CH H Me cf3 0 2.73 Η C::CH H cf2h cf2h 0 2.74 Η C::CH H cf2h cf3 0 2.75 Η C::CH H Me cf2h 0 2.76 Η C::CSiMe3 H Me cf2h 0 90273.doc -35- 1314145 2.77 Η C::C(環丙基) H Me cf3 0 2.78 Η c::c(環丙基) H Me chf2 0 2.79 Η SiMe3 H Me ch2f 0 2.80 Η SiMe3 H Me cf3 0 2.81 Η SiMe3 H Me chf2 0 2.82 Η C::CF H Me cf3 〇 2.83 Η C::CF H Me cf2h 0 2.84 Η C::CF F Me Me 0 2.85 Η C::CCF2C1 H Me cf3 0 2.86 Η c::ccf2ci H Me cf2h 0 2.87 Η c::ccf2ci F Me Me 0 2.88 Η c::ccf2h H Me cf3 〇 2.89 Η c::ccf2h H Me cf2h 0 2.90 Η c::ccf2h F Me Me 0 2.91 Η C::CCF2Br H Me cf3 0 2.92 Η C::CCF2Br H Me cf2h 0 2.93 Η C::CCF2Br F Me Me 0 2.94 Η C::CCH2F H Me cf3 0 2.95 Η c::cch2f H Me cf2h 0 2.96 Η c::cch2f F Me Me 0 2.97 Η C::CCH(Me)F H Me cf3 0 2.98 Η C::CCH(Me)F H Me cf2h 0 2.99 Η C::CCH(Me)F F Me Me 0 2.100 Η C::CC(Me)2F H Me cf3 0 2.101 Η C::CC(Me)2F Π Me cf2h 0 2.102 Η C::CC(Me)2F F Me Me 0 2.103 Η C::CCH2C(Me)3 H Me cf3 0 2.104 Η C::CCH2C(Me)3 H Me cf2h 0 2.105 Η C::CCH2C(Me)3 F Me Me 0 90273.doc -36- 1314145 2.106 Η C::CCH(Me)2 H Me cf2h 0 2.107 Η C::CCH(Me)2 H Me cf2h 0 2.108 Η C::CCH(Me)2 F Me Me 0 2.109 Η C::CCH2CH(Me)2 H Me CF2H 0 2.110 Η C::CCH2CH(Me)2 H Me cf2h 0 2.111 Η C::CCH2CH(Me)2 F Me Me 0 2.112 Η CH2C::CCMe3 H Me cf3 0 2.113 Η CH2C::CCMe3 H Me cf2h 0 2.114 Η CH2C::CCMe3 F Me Me 0 2.115 Η CF2C::CCMe3 H Me cf3 0 2.116 Η CF2C::CCMe3 H Me cf2h 0 2.117 Η CF2C::CCMe3 F Me Me 0 2.118 Η CF2C::CMe H Me cf3 0 2.119 Η CF2C::CMe H Me cf2h 0 2.120 Η CF2C::CCMe F Me Me 0 2.121 Η CF2C::CH H Me cf3 0 2.122 Η cf2c::ch H Me cf2h 0 2.123 Η cf2c::ch F Me Me 0 2.124 Η CMe2C::CH H Me cf3 0 2.125 Η CMe2C::CH H Me cf2h 0 2.126 Η CMe2C::CH F Me Me o 2.127 Η CHFC::CH H Me cf3 0 2.128 Η CHFC::CH H Me cf2h 0 2.129 Η CHFC::CH F Me Me 0 2.130 Η CHMeC::CH H Me cf3 0 2.131 Η CHMeC::CH H Me cf2h 0 2.132 Η CHMeC::CH F Me Me 0 2.133 Η CH(CF3)C::CH H Me cf3 0 90273.doc -37 1314145 2.134 Η CH(CF3)C::CH H Me cf2h 0 2.135 Η CH(CF3)C::CH F Me Me 0 2.136 Η C::C(1-F-環丙基) H Me cf3 0 2.137 Η C::C(1-F-環丙基) H Me chf2 0 2.138 Η C::CCH2OMe H Me cf3 0 2.139 Η C::CCH2OMe H Me cf2h 0 2.140 Η C::CCH2OMe F Me Me 0 2.141 Η C::CCMe2OMe H Me cf3 0 2.142 Η C::CCMe2OMe H Me cf2h 0 2.143 Η C::CCMe2〇Me F Me Me 0 2.144 Η C::CCMe2OCOMe H Me cf3 0 2.145 Η C::CCMe2OCOMe H Me cf2h 0 2.146 Η C::CCF2Me H Me cf3 0 2.147 Η C::CCF2Me H Me cf2h 0 2.148 Η C::CCF2Me F Me Me 0 2.149 Η C::CC(Me)=CH2 H Me cf3 0 2.150 Η C::CC(Me)=CH2 H Me cf2h 0 2.151 Η CH=CFC1 H Me cf3 〇 2.152 Η CH=CFC1 H Me cf2h 0 2.153 Η CH=CFC1 F Me Me 0 2.154 Η CH=CFBr H Me cf3 0 2.155 Η CH=CFBr H Me cf2h 0 2.156 Η CH=CFBr F Me Me 0 2.157 Η CH=CHBr H Me cf3 0 2.158 Η CH=CHBr H Me cf2h 0 2.159 Η CH=CHBr F Me Me 0 2.160 Η CH=CHF H Me cf3 0 2.161 Η CH=CHF H Me cf2h 0 2.162 Η CH=CHF F Me Me 〇 90273.doc -38- 1314145 2.163 Η CMe=CHCF3 H Me cf3 0 2.164 Η CMe=CHCF3 H Me cf2h 0 2.165 Η CMe=CHCF3 F Me Me 0 2.166 Η ch=cfcf3 H Me cf3 0 2.167 Η ch=cfcf3 H Me cf2h 0 2.168 Η ch=cfcf3 F Me Me 0 2.169 Η CH=CBrCF3 H Me cf3 0 2.170 Η CH=CBrCF3 H Me cf2h 0 2.171 Η CH=CBrCF3 F Me Me 〇 2.172 Η CH=CHC2F5 H Me cf3 0 2.173 Η ch=chc2f5 H Me cf2h 0 2.174 Η ch=chc2f5 F Me Me 0 2.175 Η CH=CHC1 H Me cf3 0 2.176 Η CH=CHC1 H Me cf2h 0 2.177 Η CH=CHC1 F Me Me 0 2.178 Η CH=C(CF3)2 H Me cf3 〇 2.179 Η ch=c(cf3)2 H Me cf2h 0 2.180 Η CH=C(CF3)2 F Me Me 0 2.181 Η CMe=CFCl H Me cf3 0 2.182 Η CMe=CFCl H Me cf2h 0 2.183 Η CMe=CFCl F Me Me 0 2.184 Η CMe=CFBr H Me cf3 0 2.185 Η CMe=CFBr H Me cf2h 0 2.186 Η CMe=CFBr F Me Me 0 2.187 Η CMe=CF2 H Me cf3 o 2.188 Η CMe=CF2 H Me cf2h 0 2.189 Η CMe=CF2 F Me Me 0 2.190 Η CMe=CCl2 H Me cf3 0 2.191 Η CMe=CCl2 H Me cf2h 0 2.192 Η CMe=CCl2 F Me Me 0 90273.doc -39- 1314145 2.193 Η CMe=CBr2 H Me cf3 0 2.194 Η CMe=CBr2 H Me cf2h 0 2.195 Η CMe=CBr2 F Me Me 0 2.196 Η CMe=CFCF3 H Me cf3 0 2.197 Η CMe=CFCF3 H Me cf2h 0 2.198 Η CMe=CFCF3 F Me Me 0 2.199 Η CMe=CClCF3 H Me cf3 0 2.200 Η CMe=CClCF3 H Me cf2h 0 2.201 Η CMe=CClCF3 F Me Me 0 2.202 Η ccf3=cf2 H Me cf3 0 2.203 Η ccf3=cf2 H Me cf2h 0 2.204 Η ccf3=cf2 F Me Me 0 2.205 Η ccf3=cci2 H Me cf3 0 2.206 Η ccf3=cci2 H Me cf2h 0 2.207 Η ccf3=cci2 F Me Me 0 2.208 Η CCF3=CBr2 H Me cf3 0 2.209 Η CCF3=CBr2 H Me cf2h 0 2.210 Η CCF3=CBr2 F Me Me 0 2.211 Η ccf3=ch2 H Me cf3 0 2.212 Η ccf3=ch2 H Me cf2h 0 2.213 Η ccf3=ch2 F Me Me 0 2.214 Η CCF3=CFBr H Me cf3 0 2.215 Η CCF3=CFBr H Me cf2h 0 2.216 Η CCF3=CFBr F Me Me 0 2.217 Η ccf3=chf H Me cf3 0 2.218 Η ccf3=chf H Me cf2h 0 2.219 Η ccf3=chf F Me Me 0 2.220 Η ccf3=cfci H Me cf3 0 2.221 Η ccf3=cfci H Me cf2h 0 2.222 Η ccf3=cfci F Me Me 0 90273.doc •40- 1314145 2.223 Η CCF3=CHC1 H Me cf3 0 2.224 Η ccf3=chci H Me cf2h 0 2.225 Η ccf3=chci F Me Me 0 2.226 Η ch=cfcf2ci H Me cf3 0 2.227 Η ch=cfcf2ci H Me cf2h 0 2.228 Η ch=cfcf2ci F Me Me 0 2.229 Η ch=ccicf2ci H Me cf3 0 2.230 Η ch=ccicf2ci H Me cf2h 0 2.231 Η ch=ccicf2ci F Me Me 0 2.232 Η ch2cf=cf2 H Me cf3 0 2.233 Η ch2cf=cf2 H Me cf2h 0 2.234 Η ch2cf=cf2 F Me Me 0 2.235 Η CF=CFBr H Me cf3 0 2.236 Η CF=CFBr H Me cf2h 0 2.237 Η CF=CFBr F Me Me 0 2.238 Η CH2CH=CF2 H Me cf3 0 2.239 Η ch2ch=cf2 H Me cf2h 0 2.240 Η ch2ch=cf2 F Me Me 0 2.241 Η ch2ch=cci2 H Me cf3 0 2.242 Η ch2ch=cci2 H Me cf2h 0 2.243 Η ch2ch=cci2 F Me Me 0 2.244 Η CH2CH=CBr2 H Me cf3 0 2.245 Η CH2CH=CBr2 H Me cf2h 0 2.246 Η CH2CH=CBr2 F Me Me 0 2.247 Η CC1=CF2 H Me cf3 0 2.248 Η cci=cf2 H Me cf2h 0 2.249 Η cci=cf2 F Me Me 0 表2提供249種通式(lb)化合物,其中R1,R7,R8,R9,R1Q 及X如表2内之定義。 90273.doc -41 - 1314145
表3 化合物 號數 R1 R7 R9 R10 X 3.01 Η C::CH Me cf3 0 3.02 Η C::CH Me cf3 s 3.03 Η C::CH Me cf2h 0 3.04 炔丙基 C::CH Me cf3 0 3.05 Η C::CH Me Me 0 3.06 Η C::CH CH2OMe cf3 0 3.07 丙二烯基 C::CH Me cf3 0 3.08 Η C::CSiMe3 Me cf3 0 3.09 Η C::CSiMe3 Me cf3 s 3.10 Η C::CSiMe3 Me cf2h 0 3.11 Η C::CSiMe3 Me Me 0 3.12 Η C::CC1 Me cf3 0 3.13 Η C::CC1 Me cf2h 0 3.14 Η C::CC1 Me Me 0 3.15 Η C::CBr Me cf3 0 3.16 Η C::CBr Me cf2h 0 3.17 Η C::CBr Me Me 0 3.18 Η c::ccf3 Me cf3 0 3.19 Η c::ccf3 Me cf2h 0 90273.doc -42- 1314145 3.20 Η c::ccf3 Me Me 0 3.21 丙二烯基 c::ccf3 Me cf3 0 3.22 Η ch=ch2 Me cf3 0 3.23 Η ch=ch2 Me cf3 S 3.24 Η ch=ch2 Me cf2h 0 3.25 決丙基 ch=ch2 Me cf3 0 3.26 Η ch=ch2 Me Me 0 3.27 Η ch=ch2 CH2OMe cf3 0 3.28 丙二稀·基 ch=ch2 Me cf3 0 3.29 Η ch=cf2 Me cf3 0 3.30 Η ch=cf2 Me cf2h 0 3.31 Η ch=cf2 Me Me 0 3.32 Η ch=cci2 Me cf3 0 3.33 Η ch=cci2 Me cf2h o 3.34 Η ch=cci2 Me Me 0 3.35 Η CH=CBr2 Me cf3 0 3.36 Η CH=CBr2 Me cf2h 0 3.37 Η CH=CBr2 Me Me o 3.38 Η cf=cf2 Me cf3 o 3.39 Η cf=cf2 Me cf2h 0 3.40 Η cf=cf2 Me Me o 3.41 Η cci=ch2 Me cf3 0 3.42 Η cci=ch2 Me cf2h 0 3.43 Η cci=ch2 Me Me 0 3.44 Η CBr=CH2 Me cf3 0 3.45 Η CBr=CH2 Me cf2h 0 3.46 Η CBr=CH2 Me Me 0 3.47 Η CF=CHF Me cf3 0 3.48 Η CF=CHF Me cf2h 0 3.49 Η CF=CHF Me Me 0 90273.doc -43 - 1314145 3.50 Η CH=CHSiMe3 Me cf3 0 3.51 Η CH=CHSiMe3 Me cf2h 0 3.52 Η CH=CHSiMe3 Me Me 0 3.53 Η ch=chcf3 Me cf3 0 3.54 Η ch=chcf3 Me cf2h 0 3.55 Η ch=chcf3 Me Me 0 3.56 Η ch=ccicf3 Me cf3 0 3.57 Η ch=ccicf3 Me cf2h 0 3.58 Η ch=ccicf3 Me Me 0 3.59 Η ch2c::ch Me cf3 0 3.60 Η ch2c::ch Me cf2h o 3.61 Η ch2c::ch Me Me 0 3.62 Η ch2c::ch CH2OMe cf3 0 3.63 Η CH2C::CSiMe3 Me cf3 0 3.64 Η CH2C::CSiMe3 Me cf2h 0 3.65 Η CH2C::CSiMe3 Me Me o 3.66 Η C::CCMe3 Me cf3 0 3.67 Η C::CCMe3 Me cf2h 0 3.68 Η C::CCMe3 Me Me 0 3.69 Η C::CMe Me cf3 0 3.70 Η C::CMe Me cf2h o 3.71 Η C::CMe Me Me 0 3.72 COMe C::CH Me cf3 o 3.73 Η C::CH cf2h cf2h 0 3.74 Η C::CH cf2h cf3 0 3.75 Η C::CH Me ch2f o 3.76 Η C::CSiMe3 Me ch2f o 3.77 Η c::c(環丙基) Me cf3 0 3.78 Η c::c(環丙基) Me chf2 0 90273.doc -44- 1314145 3.79 Η SiMe3 Me ch2f 0 3.80 Η SiMe3 Me cf3 〇 3.81 Η SiMe3 Me chf2 0 3.82 Η C::CF Me cf3 0 3.83 Η C::CF Me cf2h 0 3.84 Η C::CF Me Me 0 3.85 Η C::CCF2C1 Me cf3 0 3.86 Η c::ccf2ci Me cf2h 0 3.87 Η c::ccf2ci Me Me 0 3.88 Η c::ccf2h Me cf3 0 3.89 Η c::ccf2h Me cf2h 〇 3.90 Η c::ccf2h Me Me 〇 3.91 Η C::CCF2Br Me cf3 0 3.92 Η C::CCF2Br Me cf2h 0 3.93 Η C::CCF2Br Me Me 0 3.94 Η C::CCH2F Me cf3 0 3.95 Η c::cch2f Me cf2h 0 3.96 Η c::cch2f Me Me 0 3.97 Η C::CCH(Me)F Me cf3 0 3.98 Η C::CCH(Me)F Me cf2h 0 3.99 Η C::CCH(Me)F Me Me 0 3.100 Η C::CC(Me)2F Me cf3 0 3.101 Η C::CC(Me)2F Me cf2h 0 3.102 Η C::CC(Me)2F Me Me 0 3.103 Η C::CCH2C(Me)3 Me cf3 0 3.104 Η C::CCH2C(Me)3 Me cf2h 0 3.105 Η C::CCH2C(Me)3 Me Me 0 3.106 Η C::CCH(Me)2 Me cf3 0 3.107 Η C::CCH(Me)2 Me cf2h 0 90273.doc -45- 1314145 3.108 Η C::CCH(Me)2 Me Me 0 3.109 Η C::CCH2CH(Me)2 Me cf3 0 3.110 Η C::CCH2CH(Me)2 Me cf2h 0 3.111 Η C::CCH2CH(Me)2 Me Me 0 3.112 Η CH2C::CCMe3 Me cf3 0 3.113 Η CH2C::CCMe3 Me cf2h 0 3.114 Η CH2C::CCMe3 Me Me 0 3.115 Η CF2C::CCMe3 Me cf3 0 3.116 Η CF2C::CCMe3 Me cf2h 0 3.117 Η CF2C::CCMe3 Me Me 0 3.118 Η CF2C::CMe Me cf3 0 3.119 Η CF2C::CMe Me cf2h 0 3.120 Η CF2C::CCMe Me Me 0 3.121 Η CF2C::CH Me cf3 0 3.122 Η cf2c::ch Me cf2h 0 3.123 Η cf2c::ch Me Me 0 3.124 Η CMe2C::CH Me cf3 0 3.125 Η CMe2C::CH Me cf2h 0 3.126 Η CMe2C::CH Me Me 0 3.127 Η CHFC::CH Me cf3 0 3.128 Η CHFC::CH Me cf2h 0 3.129 Η CHFC::CH Me Me 0 3.130 Η CHMeC::CH Me cf3 0 3.131 Η CHMeC::CH Me cf2h 0 3.132 Η CHMeC::CH Me Me 0 3.133 Η CH(CF3)C::CH Me cf3 0 3.134 Η CH(CF3)C::CH Me cf2h 0 3.135 Η CH(CF3)C::CH Me Me 0 90273.doc -46- 1314145 3.136 Η C::C(1-F-環丙基) Me cf3 0 3.137 Η C::C(1-F-環丙基) Me chf2 0 3.138 Η C::CCH2OMe Me cf3 0 3.139 Η C::CCH2OMe Me cf2h 0 3.140 Η C::CCH2OMe Me Me 0 3.141 Η C::CCMe2OMe Me cf3 0 3.142 Η C::CCMe2OMe Me cf2h 0 3.143 Η C::CCMe2OMe Me Me 0 3.144 Η C::CCMe2OCOMe Me cf3 0 3.145 Η C::CCMe2OCOMe Me cf2h 0 3.146 Η C::CCF2Me Me cf3 0 3.147 Η C::CCF2Me Me cf2h o 3.148 Η C::CCF2Me Me Me 0 3.149 Η C::CC(Me)=CH2 Me cf3 0 3.150 Η C::CC(Me)=CH2 Me cf2h 0 3.151 Η CH=CFC1 Me cf3 0 3.152 Η CH=CFC1 Me cf2h 0 3.153 Η CH=CFC1 Me Me 0 3.154 Η CH=CFBr Me cf3 0 3.155 Η CH=CFBr Me cf2h 0 3.156 Η CH=CFBr Me Me 0 3.157 Η CH=CHBr Me cf3 0 3.158 Η CH=CHBr Me cf2h 0 3.159 Η CH=CHBr Me Me 0 3.160 Η CH=CHF Me cf3 0 3.161 Η CH=CHF Me cf2h 0 3.162 Η CH=CHF Me Me 0 3.163 Η CMe=CHCF3 Me cf3 0 3.164 Η CMe=CHCF3 Me cf2h 0 90273.doc -47- 1314145 3.165 Η CMe=CHCF3 Me Me 0 3.166 Η ch=cfcf3 Me cf3 0 3.167 Η ch=cfcf3 Me cf2h 0 3.168 Η ch=cfcf3 Me Me 0 3.169 Η CH=CBrCF3 Me cf3 0 3.170 Η CH=CBrCF3 Me cf2h 0 3.171 Η CH=CBrCF3 Me Me 0 3.172 Η ch=chc2f5 Me cf3 0 3.173 Η ch=chc2f5 Me cf2h 0 3.174 Η ch=chc2f5 Me Me 0 3.175 Η CH=CHC1 Me cf3 0 3.176 Η CH=CHC1 Me cf2h 0 3.177 Η CH=CHC1 Me Me 0 3.178 Η CH=C(CF3)2 Me cf3 0 3.179 Η CH=C(CF3)2 Me cf2h 〇 3.180 Η CH=C(CF3)2 Me Me o 3.181 Η CMe=CFCl Me cf3 0 3.182 Η CMe=CFCl Me cf2h 0 3.183 Η CMe=CFCl Me Me 0 3.184 Η CMe=CFBr Me cf3 0 3.185 Η CMe=CFBr Me cf2h 0 3.186 Η CMe=CFBr Me Me 0 3.187 Η CMe=CF2 Me cf3 0 3.188 Η CMe=CF2 Me cf2h 0 3.189 Η CMe=CF2 Me Me o 3.190 Η CMe=CCl2 Me cf3 o 3.191 Η CMe=CCl2 Me cf2h 0 3.192 Η CMe=CCl2 Me Me 0 3.193 Η CMe=CBr2 Me cf3 0 3.194 Η CMe=CBr2 Me cf2h 0 90273.doc -48- 1314145 3.195 Η CMe=CBr2 Me Me o 3.196 Η CMe=CFCF3 Me cf3 o 3.197 Η CMe=CFCF3 Me cf2h 0 3.198 Η CMe=CFCF3 Me Me 0 3.199 Η CMe=CClCF3 Me cf3 0 3.200 Η CMe=CClCF3 Me cf2h 0 3.201 Η CMe=CClCF3 Me Me 0 3.202 Η ccf3=cf2 Me cf3 0 3.203 Η ccf3=cf2 Me cf2h 0 3.204 Η ccf3=cf2 Me Me 0 3.205 Η ccf3=cci2 Me cf3 0 3.206 Η ccf3=cci2 Me cf2h 0 3.207 Η ccf3=cci2 Me Me 0 3.208 Η CCF3=CBr2 Me cf3 0 3.209 Η CCF3=CBr2 Me cf2h 0 3.210 Η CCF3=CBr2 Me Me 0 3.211 Η ccf3=ch2 Me cf3 0 3.212 Η ccf3=ch2 Me cf2h 0 3.213 Η ccf3=ch2 Me Me 0 3.214 Η CCF3=CFBr Me cf3 0 3.215 Η CCF3=CFBr Me cf2h 0 3.216 Η CCF3=CFBr Me Me 0 3.217 Η ccf3=chf Me cf3 0 3.218 Η ccf3=chf Me cf2h 0 3.219 Η ccf3=chf Me Me 0 3.220 Η ccf3=cfci Me cf3 0 3.221 Η ccf3=cfci Me cf2h 0 3.222 Η ccf3=cfci Me Me 0 3.223 Η ccf3=chci Me cf3 0 3.224 Η ccf3=chci Me cf2h 0 90273.doc -49- 1314145 3.225 Η CCF3=CHC1 Me Me 0 3.226 Η ch=cfcf2ci Me cf3 0 3.227 Η ch=cfcf2ci Me cf2h 0 3.228 Η ch=cfcf2ci Me Me 0 3.229 Η ch=ccicf2ci Me cf3 0 3.230 Η ch=ccicf2ci Me cf2h 0 3.231 Η ch=ccicf2ci Me Me 0 3.232 Η ch2cf=cf2 Me cf3 0 3.233 Η ch2cf=cf2 Me cf2h 0 3.234 Η ch2cf=cf2 Me Me 0 3.235 Η CF=CFBr Me cf3 0 3.236 Η CF=CFBr Me cf2h 0 3.237 Η CF=CFBr Me Me 0 3.238 Η CH2CH=CF2 Me cf3 0 3.239 Η ch2ch=cf2 Me cf2h 0 3.240 Η ch2ch=cf2 Me Me 0 3.241 Η ch2ch=cci2 Me cf3 0 3.242 Η ch2ch=cci2 Me cf2h 0 3.243 Η ch2ch=cci2 Me Me 0 3.244 Η CH2CH=CBr2 Me cf3 0 3.245 Η CH2CH=CBr2 Me cf2h 0 3.246 Η CH2CH=CBr2 Me Me 0 3.247 Η CC1=CF2 Me cf3 0 3.248 Η cci=cf2 Me cf2h 0 3.249 Η cci=cf2 Me Me 0 3.250 Η C::CCMe2OH Me cf3 0 3.251 Η C::CCH2CH3 Me cf2h 0 3.252 Η c::cch2ch3 Me Me 0 3.253 Η c::cch2ch3 Me cf3 0 3.254 Η c::ccf=cf2 Me cf3 0 90273.doc -50- 1314145 3.255 Η c::ccf=cf2 Me cf2h 0 3.256 Η C::CCHFC1 Me cf3 0 3.257 Η C::CCHFC1 Me cf2h 0 3.258 Η C::CCHFC1 Me Me 0 3.259 Η CH=CFC2F5 Me cf3 0 3.260 Η ch=cfc2f5 Me cf2h 0 3.261 Η ch=cfc2f5 Me Me 0 3.262 Η c::ccf2ch2ch3 Me cf3 0 3.263 Η c::ccf2ch2ch3 Me cf2h 0 3.264 Η c::ccf2ch2ch3 Me Me 0 3.265 Η c::cchfch2ch3 Me cf3 〇 3.266 Η c::cchfch2ch3 Me cf2h 0 3.267 Η c::cchfch2ch3 Me Me 0 3.268 Η C::CCF(CF3)2 Me cf3 0 3.269 Η C::CCF(CF3)2 Me cf2h 0 3.270 Η c::ccf(cf3)2 Me Me 0 3.271 Η ch=ccic2f5 Me cf3 0 3.272 Η ch=ccic2f5 Me cf2h 0 3.273 Η ch=ccic2f5 Me Me 0 3.274 Η c::cc2f5 Me cf3 0 3.275 Η c::cc2f5 Me cf2h 0 3.276 Η c::cc2f5 Me Me 0 表3提供276種通式(Ic)化合物: 90273.doc -51 - 1314145
其中Rl,R7,R9 , R10及χ如表3内之定義。 表3提供276種通式(IcA)化合物,其中R1,R7,R9,R 及X如表3内之定義。
K (IcA) 表3提供276種通式(IcB)化合物,其中R1,R7,R9,R 及X如表3内之定義。
表3提供276種通式(IcC)化合物,其中R1,R7,R9,R 及X如表3内之定義。
表3提供276種通式(IcD)化合物,其中R1,R7,R9,R 90273.doc -52- 1314145 及X如表3内之定義。
表3提供276種通式(IcE)化合物,其中R1,R7,R9,R1Q 及X如表3内之定義。
表3提供276種通式(IcF)化合物,其中R1,R7,R9,R10及 X如表3内之定義。
表3提供276鍾通式(IcG)化合物,其中R1,R7,R9,R1Q 及X如表3内之定義。
表4提供3種通式(Id)化合物: 90273.doc -53- 1314145
其中R1,R7,R9及R10如表4内之定義。
表4 化合物號數 R1 R7 R9 R10 4.01 Η C::CH Me cf3 4.02 Η C::CSiMe3 Me cf3 4.03 Η ch=ch2 Me cf3 表5提供15種通式(Ie)化合物: 其中R1,R7,R9及R10如表5内之定義。 表5
化合物 號數 R1 R7 R8 R9 R10 5.01 H C::CH H H cf3 5.02 H C::CH Me Me Me 5.03 H C::CH H Me cf3 5.04 H C::CH Me Me H 5.05 COMe C::CH Me Me H 90273.doc -54- 1314145
5.06 COMe C::CH Me Me Me 5.07 COEt C::CH Me Me Me 5.08 Η C::CSiMe3 H H cf3 5.09 Η C::CSiMe3 Me Me Me 5.10 Η C::CSiMe3 H Me cf3 5.11 Η C::CSiMe3 Me Me H 5.12 Η C::CSiMe3 H H cf3 5.13 Η ch=ch2 Me Me Me 5.14 Η ch=ch2 H Me cf3 5.15 Η ch=ch2 Me Me H 表6提供15種通式(If)化合物: 其中R1,R7,R8,R9及R10如表6内之定義。 表6
化合物 號數 R1 R7 R8 R9 R10 6.01 H C::CH H H cf3 6.02 H C::CH Me Me Me 6.03 H C::CH H Me cf3 6.04 H C::CH Me Me H 6.05 COMe C::CH Me Me H 90273.doc -55- 1314145
6.06 COMe C::CH Me Me Me 6.07 COEt C::CH Me Me Me 6.08 Η C::CSiMe3 H H cf3 6.09 Η C::CSiMe3 Me Me Me 6.10 Η C::CSiMe3 H Me cf3 6.11 Η C::CSiMe3 Me Me H 6.12 Η C::CSiMe3 H H cf3 6.13 Η ch=ch2 Me Me Me 6.14 Η ch=ch2 H Me cf3 6.15 Η ch=ch2 Me Me H 表7提供10種通式(Ig)化合物: 其中R1,R7,R8及X如表7内之定義。 表7 化合物號數 R1 R7 R8 X 7.01 H C::CH cf3 0 7.02 H C::CH Me 0 7.03 H C::CH cf3 s 7.04 COMe C::CH Me 0 7.05 H C::CSiMe3 cf3 o 7.06 H C::CSiMe3 Me 0 90273.doc -56- 1314145
7.07 Η ch=ch2 cf3 0 7.08 Η ch=ch2 cf3 0 7.09 炔丙基 ch=ch2 Me 0 7.10 丙二晞基 ch=ch2 Me 0 表8提供10種通式(Ih)化合物: 其中R1,R7,R8及X如表8内之定義。 表8 化合物號數 R1 R7 R8 X 8.01 H C::CH cf3 o 8.02 H C::CH Me 0 8.03 H C::CH cf3 s 8.04 COMe C::CH Me 0 8.05 H C::CSiMe3 cf3 0 8.06 H C::CSiMe3 Me 0 8.07 H ch=ch2 cf3 0 8.08 H ch=ch2 cf3 0 8.09 炔丙基 ch=ch2 Me 0 8.10 丙二晞基 1 ch=ch2 Me 0 90273.doc -57- 1314145 表9 化合物號數 R1 R7 R8 9.01 Η C::CH Cl 9.02 Η C::CH cf3 9.03 Η C::CH Cl 9.04 COMe C::CH Br 9.05 Η C::CH Cl 9.06 COCH2OMe C::CSiMe3 Cl 9.07 Η C::CSiMe3 cf3 9.08 Η C::CSiMe3 Br 9.09 Η ch=ch2 cf3 9.10 Η ch=ch2 Br 9.11 Η ch=ch2 Cl 9.12 Η ch=ch2 ch3 9.13 炔丙基 ch=ch2 Cl 9.14 丙二烯基 ch=ch2 Cl 9.15 Η C::C1 Cl 9.16 Η C::C1 cf3 9.17 Η C::C1 Br 9.18 Η C::CBr Cl 9.19 Η C::CBr cf3 9.20 Η C::CBr Br 9.21 Η c::ccf3 Cl 9.22 Η c::ccf3 cf3 9.23 Η c::ccf3 Br 9.24 Η ch=cf2 cf3 9.25 Η ch=cf2 Br 90273.doc -58- 1314145 9.26 Η ch=cf2 Cl 9.27 Η cci=ch2 cf3 9.28 Η cci=ch2 Br 9.29 Η cci=ch2 Cl 9.30 Η CBr=CH2 cf3 9.31 Η CBr=CH2 Br 9.32 Η CBr=CH2 Cl 9.33 Η CF=CHF cf3 9.34 Η CF=CHF Br 9.35 Η CF=CHF Cl 9.36 Η ch=chcf3 cf3 9.37 Η ch=chcf3 Br 9.38 Η ch=chcf3 Cl 9.39 Η ch=ccicf3 cf3 9.40 Η ch=ccicf3 Br 9.41 Η ch=ccicf3 Cl 9.42 Η ch2c::ch cf3 9.43 Η ch2c::ch Br 9.44 Η ch2c::ch Cl 9.45 Η CH2C::CSiMe3 cf3 9.46 Η CH2C::CSiMe3 Br 9.47 Η CH2C::CSiMe3 Cl 9.48 Η C::CMe cf3 9.49 Η C::CMe Br 9.50 Η C::CMe Cl 9.51 Η CH=CC12 cf3 9.52 Η ch=cci2 Br 9.53 Η ch=cci2 Cl 9.54 Η CH=CHSiMe3 cf3 90273.doc -59- 1314145 9.55 Η CH=CHSiMe3 Br 9.56 Η CH=CHSiMe3 Cl 9.57 Η c::c(環丙基) Cl 9.58 Η SiMe3 Cl 9.59 Η C:CCMe3 Cl 9.60 Η CH=CBr2 cf3 9.61 Η CH=CBr2 Br 9.62 Η CH=CBr2 Cl 9.63 Η cf=cf2 cf3 9.64 Η cf=cf2 Br 9.65 Η cf=cf2 Cl 9.66 Η C::CCMe3 cf3 9.67 Η C::CCMe3 Br 9.68 丙二細基 C::CCMe3 Cl 9.69 Η c::c(環丙基) cf3 9.70 Η c::c(環丙基) Br 9.71 Η C::CF cf3 9.72 Η C::CF Br 9.73 Η C::CF Cl 9.74 Η C::CCF2C1 Cl 9.75 Η c::ccf2ci cf3 9.76 Η c::ccf2ci Br 9.77 Η c:_ccf2h Cl 9.78 Η c::ccf2h cf3 9.79 Η c::ccf2h Br 9.80 Η C::CCF2Br Cl 9.81 Η C::CCF2Br cf3 9.82 Η C::CCF2Br Br 9.83 Η C::CCH2F Cl 90273.doc -60- 1314145 9.84 Η C::CCH2F cf3 9.85 Η c::cch2f Br 9.86 Η C::CCH(Me)F Cl 9.87 Η C::CCH(Me)F cf3 9.88 Η C::CCH(Me)F Br 9.89 Η C::CC(Me)2F Cl 9.90 Η C::CC(Me)2F cf3 9.91 Η C::CC(Me)2F Br 9.92 Η C::CCH2CMe3 Cl 9.93 Η C::CCH2CMe3 Br 9.94 Η C::CCHMe2 cf3 9.95 Η C::CCHMe2 Br 9.96 Η C::CCHMe2 Cl 9.97 Η C::CCH2CHMe2 cf3 9.98 Η C::CCH2CHMe2 Br 9.99 Η C::CCH2CHMe2 Cl 9.100 Η CF2C::CMe cf3 9.101 Η CF2C::CMe Br 9.102 Η CF2C::CMe Cl 9.103 Η CF2C::CH cf3 9.104 Η cf2c::ch Br 9.105 Η cf2c::ch Cl 9.106 Η CHFC::CH cf3 9.107 Η CHFC::CH Br 9.108 Η CHFC::CH Cl 9.109 Η C::C(1-F-環丙基) cf3 9.110 Η C::C(1-F-環丙基) Br 9.111 Η C::C(1-F-環丙基) Cl 90273.doc -61 - 1314145 9.112 Η C:CCH2OMe Cl 9.113 Η C:CCH2OMe Br 9.114 Η C:CCH2OMe cf3 9.115 Η C:CCMe2〇Me Cl 9.116 Η C:CCMe2OMe Br 9.117 Η C:CCMe2OMe cf3 9.118 Η C:CCMe2OCOMe Cl 9.119 Η C:CCMe2OCOMe Br 9.120 Η C:CCMe2OCOMe cf3 9.121 Η C::CCF2Me Cl 9.122 Η C::CCF2Me Br 9.123 Η C::CCF2Me cf3 9.124 Η CH=CFC1 cf3 9.125 Η CH=CFC1 Br 9.126 Η CH=CFC1 Cl 9.127 Η CH=CFBr cf3 9.128 Η CH=CFBr Br 9.129 Η CH=CFBr Cl 9.130 Η CH=CHBr cf3 9.131 Η CH=CHBr Br 9.132 Η CH=CHBr Cl 9.133 Η CMe=CHCF3 cf3 9.134 Η CMe=CHCF3 Br 9.135 Η CMe=CHCF3 Cl 9.136 Η ch=cfcf3 cf3 9.137 Η ch=cfcf3 Br 9.138 Η ch=cfcf3 Cl 9.139 Η CH=CBrCF3 cf3 9.140 Η CH=CBrCF3 Br 90273.doc -62- 1314145 9.141 Η CH=CBrCF3 Cl 9.142 Η CH=CHC2F5 cf3 9.143 Η ch=chc2f5 Br 9.144 Η ch=chc2f5 Cl 9.145 Η CH=CHC1 cf3 9.146 Η CH=CHC1 Br 9.147 Η CH=CHC1 Cl 9.148 Η CH=C(CF3)2 Cl 9.149 Η CMe=CFCl cf3 9.150 Η CMe^CFCl Br 9.151 Η CMe=CFCl Cl 9.152 Η CMe=CFBr cf3 9.153 Η CMe=CFBr Br 9.154 Η CMe=CFBr Cl 9.155 Η CMe=CF2 cf3 9.156 Η CMe=CF2 Br 9.157 Η CMe=CF2 Cl 9.158 Η CMe=CCl2 cf3 9.159 Η CMe=CCl2 Br 9.160 Η CMe=CCl2 Cl 9.161 Η CMe=CBr2 cf3 9.162 Η CMe=CBr2 Br 9.163 Η CMe=CBr2 Cl 9.164 Η ccf3=cf2 cf3 9.165 Η ccf3=cf2 Br 9.166 Η ccf3=cf2 Cl 9.167 Η ccf3=cci2 cf3 9.168 Η ccf3=cci2 Br 9.169 Η ccf3=cci2 Cl 9.170 Η CCF3=CBr2 cf3 90273.doc -63- 1314145 9.171 Η CCF3=CBr2 Br 9.172 Η CCF3=CBr2 Cl 9.173 Η ccf3=ch2 cf3 9.174 Η ccf3=ch2 Br 9.175 Η ccf3=ch2 Cl 9.176 Η CCF3=CFBr cf3 9.177 Η CCF3=CFBr Br 9.178 Η CCF3=CFBr Cl 9.179 Η CCF3=CFC1 cf3 9.180 Η ccf3=cfci Br 9.181 Η ccf3=cfci Cl 9.182 Η ch=cfcf2ci cf3 9.183 Η ch=cfcf2ci Br 9.184 Η ch=cfcf2ci Cl 9.185 Η ch=ccicf2ci Cl 9.186 Η ch2cf=cf2 cf3 9.187 Η ch2cf=cf2 Br 9.188 Η ch2cf=cf2 Cl 9.189 Η CF=CFBr Cl 9.190 Η ch2ch=cf2 Cl 9.191 Η ch2ch=cci2 Cl 9.192 Η CH2CH=CBr2 Cl 9.193 Η CH2CH=CBr2 cf3 9.194 Η CH2CH=CBr2 Br 9.195 Η CC1=CF2 Cl 9.196 Η C::CMe chf2 9.197 Η C::CCHMe2 chf2 9.198 Η C::CCH2CHMe2 chf2 9.199 Η c::ccf3 chf2 9.200 Η C::CH chf2 90273.doc -64- 1314145 9.201 Η C::CCH2SiMe3 Cl 9.202 Η C::CCH2CF3 Cl 9.203 Η C::CSi(Me)2CMe3 Cl 9.204 Η c::cch2ch3 Cl 9.205 Η c::ccf=cf2 Cl 9.206 Η C::CCHFC1 Cl 9.207 Η ch=cfc2f5 Cl 9.208 Η c::ccf2ch2ch3 Cl 9.209 Η c::cchfch2ch3 Cl 9.210 Η c::ccf(cf3)2 Cl 9.211 Η ch=ccic2f5 Cl 9.212 Η c::cc2f5 Cl 表9提供212種通式(Ii)化合物:
其中R1,R7及R8如表9内之定義。 表9提供212種通式(1丨八)化合物,其中111,117及118如表 内之定義。
90273.doc -65- 1314145 表9提供212種通式(1丨8)化合物,其中111,117及尺8如表9 内之定義。
表9提供212種通式(1丨(:)化合物,其中111,117及118如表9 内之定義。
表9亦提供212種通式(IiD)化合物’其中R1 ’ R7及R8如表9 内之定義。
表10提供14種通式(Ij)化合物·· 90273.doc -66 - 1314145
其中R1,R7及R8如表10内之定義。 表10 化合物號數 R1 R7 R8 10.01 Η C::CH Cl 10.02 Η C::CH cf3 10.03 COMe C::CH Cl 10.04 Η C::CH Br 10.05 COCH2OMe C::CH Cl 10.06 Η C::CSiMe3 Cl 10.07 Η C::CSiMe3 cf3 10.08 Η C::CSiMe3 Br 10.09 Η ch=ch2 cf3 10.10 Η ch=ch2 Br 10.11 Η ch=ch2 Cl 10.12 Η ch=ch2 ch3 10.13 晞丙基 ch=ch2 Cl 10.14 丙二晞基 ch=ch2 Cl 表11提供14種通式(Ik)化合物:
R7 90273.doc -67 1314145 其中R1,R7及R8如表11内之定義。 表11 化合物號數 R1 R7 R8 11.01 Η C::CH Cl 11.02 Η C::CH cf3 11.03 COMe C::CH Cl 11.04 Η C::CH Br 11.05 COCH2OMe C::CH Cl 11.06 Η C::CSiMe3 Cl 11.07 Η C::CSiMe3 cf3 11.08 Η C::CSiMe3 Br 11.09 Η ch=ch2 cf3 11.10 Η ch=ch2 Br 11.11 Η ch=ch2 Cl 11.12 Η ch=ch2 ch3 11.13 烯丙基 ch=ch2 Cl 11.14 丙二晞基 ch=ch2 Cl 表12提供94種通式(II)化合物,其中R2,R3,R4及R5各為 氫;η為0 ;及R1及R7如表12内之定義。 表12 化合物號數 R1 R7 12.01 H C::CH 12.02 H C::CSiMe3 12.03 H c::ccf3 12.04 H C::CC1 90273.doc 68- 1314145 12.05 Η ch=ch2 12.06 Η ch=cf2 12.07 Η ch=cci2 12.08 Η CH=CBr2 12.09 Η cf=cf2 12.10 Η cci=ch2 12.11 Η CF=CHF 12.12 Η ch=chcf3 12.13 Η ch=ccicf3 12.14 Η ch2c::ch 12.15 Η C::CCMe3 12.16 CHO C::CMe 12.17 Η c::c(環丙基) 12.18 Η SiMe3 12.19 Η C::CBr 12.20 Η CBr=CH2 12.21 Η CH=CHSiMe3 12.22 Η CH2C::CSiMe3 12.23 Η C::CMe 12.24 Η C::CF 12.25 Η C::CCF2C1 12.26 Η c::ccf2h 12.27 Η C::CCF2Br 12.28 Η C::CCH2F 12.29 Η C::CCH(Me)F 12.30 Η C::CC(Me)2F 12.31 Η C::CCH2C(Me)3 12.32 Η C::CCH(Me)2 12.33 Η C::CCH2CH(Me)2 90273.doc -69- 1314145 12.34 Η CH2C::CCMe3 12.35 Η CF2C::CCMe3 12.36 Η CF2C::CMe 12.37 Η cf2c::ch 12.38 Η CMe2C::CH 12.39 Η CHFC::CH 12.40 Η CHMeC::CH 12.41 Η CH(CF3)C::CH 12.42 Η C::C(1-F-環丙基) 12.43 Η C::CCH2OMe 12.44 Η C::CCMe2OMe 12.45 Η C::CCMe2OCOMe 12.46 Η C::CCF2Me 12.47 Η C::CC(Me)=CH2 12.48 Η CH=CFC1 12.49 Η CH=CFBr 12.50 Η CH=CHBr 12.51 Η CH=CHF 12.52 Η CMe=CHCF3 12.53 Η ch=cfcf3 12.54 Η CH=CBrCF3 12.55 Η CH=CHC2F5 12.56 Η CH=CHC1 12.57 Η CH=C(CF3)2 12.58 Η CMe=CFCl 12.59 Η CMe=CFBr 12.60 Η CMe=CF2 12.61 Η CMe=CCl2 12.62 Η CMe=CBr2 90273.doc -70- 1314145 12.63 Η CMe=CFCF3 12.64 Η CMe=CClCF3 12.65 Η ccf3=cf2 12.66 Η ccf3=cci2 12.67 Η ccf3=cci2 12.68 Η ccf3=cci2 12.69 Η CCF3=CBr2 12.70 Η ccf3=ch2 12.71 Η CCF3=CFBr 12.72 Η ccf3=chf 12.73 Η ccf3=cfci 12.74 Η ccf3=chci 12.75 Η ch=cfcf2ci 12.76 Η ch=ccicf2ci 12.77 Η ch2cf=cf2 12.78 Η CF=CFBr 12.79 Η CH2CH=CF2 12.80 Η ch2ch=cci2 12.81 Η CH2CH=CBr2 12.82 Η CC1=CF2 12.83 Η C::CCH2SiMe3 12.84 Η C::CSiMe2CMe3 12.85 Η C::CCMe2OH 12.86 Η C::CCH2CH3 12.87 Η c::ccf=cf2 12.88 Η C::CCHFC1 12.89 Η CH=CFC2F5 12.90 Η c::ccf2ch2ch3 12.91 Η c::cchfch2ch3 90273.doc -71 - 1314145 12.92 Η C::CCF(CF〇, — 12.93 Η ch=ccic2f, —_ 12.94 Η c::cc2f, 表13提供1種通式(III)化合物,其中R2,R3,R4及R5各為 氧;η為〇 ;及Hal及R7如表13内之定義。 _______ 表 13 . 化合物號數 R7 Hal 13.01 C::CH Br 本說明文從頭至尾,溫度係以攝氏度數表示;"NMR”意 指該核磁共振光譜;MS表示質譜;M+-1或M++1為該質譜内 之信號’其個別相當於分子量減丨或分子量加1 ;除非相對 的濃度以其它單位表示,”%"為重量%。 本說明文從頭至尾使用下述縮寫: m.p.= 熔點 b.p.= 沸點 s = 單餐 br = 寬 d = 雙峯 dd = 雙峯群之雙峯 t = 三峯 q = 四条 m = 多峯 ppm = 每百萬之份數 表14表不表1至13各該化合物所挑選的熔點,挑選的分子 鐵及挑選的NMR資料,全部使用CDCl3作為該溶劑(除非另 有扣足,^•存在各溶劑之混合物,其係表示,例如, (CDCl3/d6-DMSO) ’且在全部情況下,並未嚐試列示全部特 性資料。除非另有指定’該資料係指各化合物之順式/反式 混合物。 90273.doc -72- 1314145 表14 化合物 號數 W-NMR資料:(ppm/多重性/Hs之數值) 或MS-資料 熔點/(°c) 1.01 169-170 1.03 132-135 1.08 147-150 1.10 >200 1.12 195-197 1.13 139-144 1.15 193-194 1.16 120-125 1.18 207-209 1.19 210-212 1.22 184-187 1.24 137-141 1.29 197-198 1.30 181-182 1.32 173-176 1.33 147-150 1.35 167-169 1.36 148-150 1.38 156-157 1.39 168-170 1.41 212-213 1.42 174-176 1.50 117-124 1.53 205-206 1.54 194-195 1.56 143-145 90273.doc -73- 1314145 1.57 118-121 1.59 186-190 1.60 137-139 1.66 139-143 1.67 406 (M+-1) 193-196 1.69 382 (M+-l) 221-223 1.70 364 (M+-l) 205-208 1.77 208-210 1.78 202-205 1.80 165-166 1.81 165-169 1.85 198-198.5 1.86 184-184.5 1.88 206-207 1.89 200-201 1.193 160-162 1.94 205-206 1.95 198-199 1.97 197-198 (分解) 1.98 176-177 1.100 120-121 1.101 128-129 1.106 155-158 1.107 142-143 1.109 150-153 1.110 132-140 1.137 132-133 1.138 167-169 90273.doc -74- 1314145 1.139 163-165 1.141 141-142.5 1.142 155-156 1.144 1.8 (s, 6); 2.1 (s, 3); 3.95 (s, 3); 7.2-7.6 (m, 7); 7.75 (br.s, 1); 8.25 (d, 1) 1.145 132-141 1.147 149-150 1.150 143-145 1.151 189-194 1.152 168-170 1.154 197-200 1.155 174-178 1.158 195 1.166 172-155 1.167 145-150 1.182 127-129 1.185 111-114 1.194 2.25 (s, 3); 3.9 (s, 3); 6.7 (t, 1); 7.2-7.5 (m, 6); 7.7 (s, 1); 7.72 (br, 1); 8.3 (d, 1) 1.212 176-179 1.226 152.5-153 1.227 146-147 1.250 159-162 1.251 156-161 1.252 163-165 1.254 139-140 1.255 187-187.5 1.257 177-178 2.01 145-148 2.08 148-154 90273.doc -75- 1314145 2.66 160-165 3.01 145-147 3.08 103-105 3.12 122-126 3.18 160-165 3.29 146-147 3.32 125-130 3.35 120-126 3.38 122-127 3.41 169-170 3.56 132-137 3.66 129-133 3.69 159-163 3.97 133-134 3.100 127.7-129 3.109 117-119 3.136 140-142 3.141 1.55 (s, 6); 2.7 (s, 3); 3.4 (s, 3); 7.2-7.3 (m, 4); 7.4 (m, 1); 7.5 (d, 2); 7.55 (br, 1); 8.3 (d, 1) 3.146 141-142 3.157 145-157 3.166 148-150 3.193 128-132 3.211 183-184 3.250 140-143 9.01 150-152 9.06 84-86 9.15 154-157 9.21 185-189 90273.doc -76- 1314145 9.38 141-142 9.41 143-145 9.50 157-159 9.53 133-138 9.58 130-132 9.59 123-125 9.62 138-139 9.65 164-167 9.68 1.8 (s, 9); 4.9 + 5,25 (m, 1); 6.15-8.5 (m, 12) 9.83 143-145 9.86 169-170 9.89 167-167.5 9.99 109-111 9.118 1.8 (s, 6); 2.1 (s, 3); 7.2-7.6 (m, 9), 8.1 (m, 1); 8.45 (m, 1) 9.132 162-165 9.138 172-175 9.163 167-171 9.185 119-120.5 9.201 0.0 (s, 9); 1.55 (s, 2); 7.0-7.3 (m, 8); 79-8.0 (m, 2); 8.3 (m, 2) 9.203 105-107 12.01 111-115 12.02 0.05 (s, 9); 6.5-6.7 (d+t, 2); 6.8-7.1 (t+t, 2); 7.2-7.5 (m, 4) 12.03 262 (M+H+); 303 (M+MeCN+H+); 12.04 92-98 12.06 3.75 (br, 2); 5.35 (dd, 1); 6.75-6.9 (m, 2); 7.1-7.2 (m, 2); 7.35-7.5 (m, 4) 12.07 3.8 (br, 2); 6.8 (d, 1); 6.85 (t, 1); 6.9 (s, 1); 7.1-7.2 (d+t, 2); 7.45-7.65 (m, 4) 12.08 3.8 (br, 2); 6.75-6.9 (m, 2); 7.1-7.2 (m, 2); 7.5-7.7 (m, 5) 90273.doc -77- 1314145 12.09 3.8 (br, 2); 6.7-6.9 (m, 2); 7.1-7.2 (m,2); 7.6 (很窄 的 m,4) 19F:-99.7;-114.6;-177.3 12.10 230 (M+H+); 371 (M+MeCN+H+) 12.12 84-86 12.13 298 (M+H+); 339 (M+MeCN+H+) 12.14 208 (M+H+); 249 (M+MeCN+H+) 12.15 66-69 12.16 91-96 12.17 0.8-0.9 (m, 4); 1.4-1.5 (m, 2); 3.7 (br, 2); 6.7-6.8 (m, 2); 7.1-7.2 (m, 2); 7.3-7.5 (m, 4) 12.18 0.15 (s,9); 2.0-2.6 (很寬,2); 6.6-6.67 (m,2) 7.0-7.1 (m, 2); 7.3-7.5 (m, 4) 12.19 3.8 (br, 2); 6.75-6.9 (m, 2); 7.1-7.2 (m, 2); 7.35-7.55 (m,4) 12.23 108-112 12.25 3.75 (br, 2); 6.8 (m, 2); 7.1-7.25 (m, 2); 7.5-7.7 (m, 4) 19F: -35.9 12.26 3.8 (br, 2); 6.4 (t, 1); 6.75-6.9 (m, 2); 7.1-7.25 (m, 2); 7.4-7.56 (m, 4); 19F: -105.7 12.28 69-71 12.29 1.7 (d之d,3); 3.8 (br,2); 5.5 (四峯群之(1,1);6.75-6.9 (m, 2); 7.05-7.2 (m, 2); 7.4-7.6 (m, 4) 19F: -165.6 12.30 1.75 (d, 6); 3.8 (br, 2); 6.8 (m, 2); 7.15 (m, 2); 7.4-7.6 (m, 4) 19F: -126.0 12.32 1.3 (d, 6); 3.7 (br, 2); 6.7-6.8 (d+t, 2); 7.15 (m, 2); 7.3-7.5 (m, 4) 12.33 1.05 (d, 6); 1.9 (m, 1); 2.35 (d, 2); 3.75 (br, 2); 6.75-6.9 (m, 2); 7.1-7.2 (m, 2); 7.35-7.5 (m, 4) 12.42 1.7-2.5 (m, 8); 3.7 (br, 2); 6.7-6.8 (m, 2); 7.05-7.15 (m, 2); 90273.doc •78- 1314145 7.35.7.5 (m, 4); 7.1-7.2 (m, 2); 7.4-7.6 (m, 4) 12.43 3.45 (s, 3); 3.8 (br, 2); 4.35 (s, 2); 6.7-6.8 (d+t, 2); 7.1-7.25 (m, 2); 7.4-7.6 (m, 4) 12.45 1.75 (s, 6); 2.1 (s, 3); 3.75 (br, 2); 6.75-6.85 (m, 2); 7.1-7.2 (m, 2); 7.4-7.6 (m, 4) 12.46 2.0 (t, 3); 3.75 (br, 2); 6.75-6.85 (m, 2); 7.1-7.2 (m, 2); 7.4-7.6 (m, 4) 12.47 2.0 (s,3); 3.75 (br, 2); 5.3 (,m,l);5.4(s,l);6.75-6.85 (m, 2); 7.1-7.2 (m, 2); 7.4-7.55 (m, 4) 12.48 3.8 (br, 2); 5.85+6.45 (2ds, 1); 6.7-6.9 (m, 2); 7.1-7.2 (m, 2); 7.4-7.65 (m, 4); 19F: -71.2; -73.9 12.49 4.0- 4.6 (br, 2); 6.0+6.7 (2ds, 1); 6.75-6.9 (m, 2); 7.1- 7.2 (m, 2); 7.4-7.65 (m, 4); 12.50 86-92 12.53 12.58 2.1 (2s, 3); 3.8 (br, 2); 6.7-6.9 (m, 2); 7.1-7.2 (m, 2); 7.35-7.5 (m, 2); 19F: -80.1;-81.3 12.59 21. (2s, 3); 3.8 (br, 2); 67-6.9 (m, 2); 7.1-7.2 (m, 2); 7.35-7.5 (m, 2); 19F: -74.2; -74.6 12.62 120-129 12.70 3.75 (br, 2); 5.8(窄m, 1); 5.95 (窄m,1); 6.75-6.9 (m, 2); 7.1-7.2 (m, 2); 7.4-7.55 (m, 4) 12.75 67-68.5 12.83 0.0 (s, 9); 1.6 (s, 2); 6.6 (d, 1); 6.65 (t, 1); 7.0 (m, 2); 7.2-7.4 (m, 4) 12.84 0.0 (s,6); 0.8 (s,9); 4.25 (很寬,2); 6.65-6.75 (m, 2); 6.9-7.05 (m, 2); 7.2-7.4 (m, 4) 12.85 252 (Μ+Έ〇 15.25 131-1134 15.26 非晶形 90273.doc -79· 1314145 15.28 1.3 (s, 9); 7.2-7.5 (m, 10); 8.1 (m, 2); 8.45 (m, 2) 16.7 63-64 表15提供48種通式I(m)化合物,其中R,X及Het如表15 内之定義。 N. CH, I -,Ν、
Wpt^n、-
2) et( H c
Nv
H / C—N Λ1/ ,Η 2 F c 5-
3) et( H N、 s/ c
Het(4) = I 表15 化合物號數 X R Het 15.1 Η C::CH Het(l) 15.2 Η C::CH Het(2) 15.3 Η C::CH Het⑶ 15.4 Η C::CH Het(4) 15.5 C1 C::CH Het(l) 15.6 C1 C::CH Het(2) 90273.doc -80- 1314145 15.7 Cl C::CH Het(3) 15.8 Cl C::CH Het(4) 15.9 F C::CH Het(l) 15.10 F C::CH Het(2) 15.11 F C::CH Het(3) 15.12 F C::CH Het(4) 15.13 H C::CMe Het(l) 15.14 H C::CMe Het(2) 15.15 H C::CMe Het⑶ 15.16 H C::CMe Het(4) 15.17 F C::CMe Het(l) 15.18 F C::CMe Het(2) 15.19 F C::CMe Het(3) 15.20 F C::CMe Het(4) 15.21 Cl C::CMe Het(l) 15.22 Cl C::CMe Het(2) 15.23 Cl C::CMe Het(3) 15.24 Cl C::CMe Het⑷ 15.25 H C::CCMe3 Het(l) 15.26 H C::CCMe3 Het(2) 15.27 H C::CCMe3 Het(3) 15.28 H C::CCMe3 Het(4) 15.29 Cl C::CCMe3 Het(l) 15.30 Cl C::CCMe3 Het(2) 15.31 Cl C::CCMe3 Het(3) 15.32 Cl C::CCMe3 Het(4) 15.33 F C::CCMe3 Het(l) 15.34 F C::CCMe3 Het(2) 90273.doc -81 - 1314145
ll(m) 15.35 F C::CCMe3 Het(3) 15.36 F C::CCMe3 Het(4) 15.37 Η CH=CC1CF3 Het(l) 15.38 Η ch=ccicf3 Het(2) 15.39 Η ch=ccicf3 Het(3) 15.40 Η ch=ccicf3 Het(4) 15.41 Cl ch=ccicf3 Het(l) 15.42 Cl ch=ccicf3 Het(2) 15.43 Cl ch=ccicf3 Het(3) 15.44 Cl ch=ccicf3 Het(4) 15.45 F CH 二 CC1CF3 Het(l) 15.46 F ch=ccicf3 Het(2) 15.47 F ch=ccicf3 Het(3) 15.48 F ch=ccicf3 Het(4) 表16提供12種通式II(m)化合物,其中R及X如表16内之定 表16
化合物號數 X R 16.1 Η C::CH 16.2 Cl C::CH 16.3 F C::CH 90273.doc -82- 1314145 16.4 Η ------- C::CMe 16.5 F C::CMe 16.6 Cl C::CMe 16.7 Η ---~~~ C::CCMe3 16.8 Cl -— C::CCMe 16.9 F — C::CCMe 16.10 H ------- CH=CC1CF3 16.11 Cl —-. CH=CC1CF3 16.12 F ch=ccicf3 【實施方式】 可根據以下反應流程製備根據本發明各該化合物,其中 ,除非另有指定,各變項之定義如上述通式(I)化合物之定 義。 有許多製備通式(I)化合物之其它方法。
方法A 製備一種通式(I)化合物之方法為於介於_1(rc與所使用 孩溶劑沸點間之溫度下[較佳於環境溫度下],於強鹼[例如 ,NaH或鈉六T基二矽氮烷]存在下,在無水極性溶劑[較佳 為THF]内使通式(π)化合物與通式Het_c卜〇)〇R,化合物[其 中 R 為 Cw烷基]反應。由 j Wang等人2〇〇1,1485) 著述之論文提供類似製法之詳述。
万法B 製備一種通式⑴化合物之方法為於介於-HTC與所使用 該溶劑彿點間之溫度下[較佳於環境溫度下],在情性有機溶 90273.doc -83- 1314145 劑[例如,醋酸乙酿,二氯曱烷,二噚烷或DMF]内使通式(π) 化合物與通式Het-C(=0)R”化合物[其中R,,為〇H或脫離基 ,例如 ’ Cl ’ Br ’ F或 0(:( = 0)(^-4 燒基]反應。若 R,,為〇H, 該反應係於活化劑[例如,B〇p_cl]及兩當量鹼[例如,第三 胺,無機碳酸鹽或碳酸氫鹽]存在下進行。或者,若R,,為脫 離基,蔹反應係於至少一當量鹼[例如,吡啶,第三胺,無 機碳酸鹽或碳酸氫鹽]存在下進行。
方法C 一種通式⑴化合物[雖然R1如上文定義,但是並非氫]之 製法為在溶劑[例如,_化溶劑(例如,二氣甲烷),醚,醋 奴乙酉曰DMF或甚至水(呈雙相混合物,並視需要在相轉移 觸媒(例如,硫酸四丁基銨)]存在下]内,並於鹼[例如,第 三胺’鹼性碳酸鹽’鹼性氫氧化物或⑽存在下使通式⑴ 化合物[其中R1為氫]與通式Rl_Ll [其中Rl如上文定義,但是 並非虱’且L1為脫離基’例如,。,工,磺酸根(例如, 甲燒續酸根或甲苯姐根)或沉⑼Ci道基]反應;然而, 若L1為〇(〇)Cl.4垸基,則可不使料進行簡單的加熱。
万法D -種通式⑴化合物之製法4於高溫τ,且較佳相流下 ,在Cu(I)化合物及非質子溶劑[例如,環醚,例如,二唠烷] 存在下’使通式(m)化合物[其中Hal較佳為溴基或破基]與通 式Het、-C(=〇)NH2化合物反應'。該較佳條件為於u-二胺(作 為配位形成物質,例如,丨,2_二胺基環己垸或乙二胺)及至 少-當量驗(例如’驗性碳酸鹽或驗性鱗酸鹽)存在下,相對 90273.doc •84· 1314145 於該通式(III)化合物,使用2%至100%莫耳/莫耳之Cul。由 A. Klapars等人(J. Am. Chem. Soc. 121, 7727 (2001))著述之 論文提供類似製法之詳述。
方法E 可藉由轉化以下通式(IV)化合物製備一種通式(I)化合物 R3
[其中FG為一種官能基,其可以在一或多種合成步驟中轉化 成R7]。官能基互轉換作用為熟悉本技藝者已知之標準程序 。在該文獻中有描述許多方法,可以使用這些方法或根據 存在之官能性質,經修飾使用;表A提供文獻參考資料(其 中有一些亦列舉另外的適合參考資料),其尤其與藉由使FG 進行互轉化作用,得到R7以製備該通式(I)化合物之方法有 關。熟悉本技藝者可知表A中所予之各該文獻實例並不需受 限於製備特別提及之R7,其亦可用於類似製備其它相關R7 之構造。
表A 參考資料 FG R7 Synthesis 2001, 2081 Tetrahedron 58,1491 (2002) CHO CH=CBr2 CH=CHBr C::CBr 90273.doc -85- 1314145
Russ. Chem. Bull. 50(6), 1047 (2001) CHO ch=cci2 Tetrahedron 57, 7519 (2001) CHO ch=ccicf3 ch=cfcf2ci Bull. Chem. Soc. Jpn. 73, 1691 (2000) Bull. Chem. Soc. Jpn 71, 2903 (1998) CHO CFCBrF J. Chem. Soc. Perkin 1 2002, 883 COCH3 C(CH3)=CHBr C(CH3)=CC12 J. Fluorine Chem. 1, 381 (1972) COCH3 C(CH3)=CBr2 J. Fluorine Chem. 23, 339 (1983) COCF3 C(CH3)=CFBr C(CH3)=CFC1 C(CH3)=CFBr C(CH3)=CFC1 C(CH3)=CF2 Tetrahedron Letters 41, 8045 (2000) J. Org. Chem. 62, 9217 (1997) Hal CF=CHF Tetrahedron Letters 37, 8799 (1996) Hal ch=cf2 JP 09278688 J. Fluorine Chem. 31, 115 (1986) Hal cf=cf2 Zh. Org. Khim. 25,1451 (1989) Hal CF=CFC1 J. Org. Chem. 53, 2714 (1988) Hal cf=cfcf3 J. Org. Chem. 56, 7336 (1991) Tetrahedron Letters 42, 4083 (2001) Hal C(CF3)=CH2 Ukr. Khim. Zh. 32, 996 (1996) CHBrCH2CF3 ch=chcf3 Bull. Chem. Soc., Jap. 62,1352 CH=CC1CF3 ch=cfcf2ci c::ccf3 c::ccf2ci J. Org. Chem. 54, 5856 (1989) J. Am. Chem. Soc. 109, 2138 (1987) Tetrahedron 45, 6511 (1989) J. Orgmet. Chem. 549, 127 (1997) Tetrahedron 56, 10075 (2000) Tetrahedron Asymmetry 6, 245 (1995) Hal或三氟甲烷 磺酸鹽 C::CH C::CSiMe3 c::cch3 C::CCMe3 c::cch2oh C::CCHMeOH C::CCMe2OH C::CCHO C::CC(0)Me J. Org. Chem. 32, 1674 (1967) c::cch3 CH2C::CH 90273.doc • 86- 1314145
Synth. Comm. 1989, 561 CHO C::CH CH2CHO CH2C::CH WOOl 092563 CHO ch=ch2 J. Am. Chem. Soc. 123, 4155 (2001) Hal或三氟甲烷 ch=ch2 Org. Lett. 2, 3703 (2000) 磺酸鹽 J. Org. Chem. 57, 3558 (1992) Synthesis 2001, 893 GB 2 183 639 C::CH ch=ch2 Synthesis 1996, 1494 CHO C::CC1 J. Org. Chem. 49, 294 (1984) C::CH C::CBr US 6 159956 CH2Br CH2CF=CF2 Liebigs Ann. Chem. 1995, 2027 CH2Br CH=C(CF3)2 J. Am. Chem. Soc. 123,4155 (2001) CH2Br CH2C::CSiMe3 Inorg. Chim. Acta 296, 37 (1999) Hal CH2C::CMe3 J. Fluorine Chem. Ill, 185 (2001) CH=CHBr ch=chcf3 J. Chem. Soc. Perkin 1 1988, 921 CH=CFBr ch=cfcf3 CH=CBr2 CH=C(CF3)2 DE 4417441 C::CCH2OH c::cch2f US3976691 C::CCHMeOH C::CCHMeF J. Org. Chem. 64, 7048 (1999) C::CCMe2OH C::CCMe2F C::CCHO c::cchf2 C::CC(0)Me C::CCF2Me J. Chem. Soc. Perkin 1 1994, 725 C::CCH2OH C:CCH2CF3 Synthesis 1997,1489 C::CH c::ccf2cf3 Angew. Chem. Int. Ed. 39, 2481 (2000) ch=chcf2cf3 J. Org. Chem. 47, 2255 (1982) J. Fluorine. Chem. 113, 55 (2002) J. Fluorine. Chem. 64, 61 (1993) C::CH C::CCHFC1 J. Am. Chem. Soc. 109, 3492 (1987) C::CCF2Br J. Am. Chem. Soc. 107, 5186 (1985) CH=CHBr CH=CHCF2CF3 90273.doc -87- 1314145 有許多製備通式(II),(III)或(IV)化合物之其它方法。 方法f-通式aniuiin化合物之製法 R3
官能基 互換作用
(R6)n (若 T非 NH2) 脫除保護作用或 FG互換作用* II (Τ=ΝΗ2) II (若 T^NHR1) III(若T=鹵素) VI (若 Τ=Τ,或 Τ"),
可藉由通式(V)化合物[其中FG如上文通式(IV)化合物之 定義,且T為鹵素’胺基,NHR1,經保護之胺基τ,(例如, 胺基甲酸根,醯胺,環醯亞胺,N-烷基-,N-缔基-,N-苄 基N-二苯甲基-或N-三苯甲基-衍生物,亞胺衍生物或冰 矽燒基-或二矽烷基-衍生物)或T”基團(亦即,可藉由使用該 文獻所述之合成方法,轉化成NH2或NHR1之基團;τ”較佳
為璺氮基,硝基,鹵素,三氟甲烷磺醯根,C〇nh2,COOH ,(:0C1或NCO)]之官能基互轉換作用,製備通式(n),(m) 或(IV)化合物。首先’可藉由使用類似上述方法Ε之方法使通 式(V)化合物之官能基FG轉化成R7。此種轉化作用可直接產 生通式(II)化合物[其中T*NHRi],通式(111)化合物[其中τ 為鹵素(較佳為氯基,溴基或碘基)]或通式(VI)化合物[其中 Τ為 τ’或 Τ’’]。 在第二步驟中,可藉由如上文—般性描述之方法[亦即, 使Τ”變成迎2之脫除保護作用或轉化作用]使通式州或 90273.doc -88- 1314145 (II)[其中R1非Η]轉化成通式(II)化合物[其中R1為Η]。 Τ’之通用值之實例及脫除保護作用之方法實例示於T.W. Green and P. Wuts, Protective Groups in Organic Synthesis, 第 3版(John Wiley & Sons 1999),第 7章内。 T”之有用值編輯及使T”轉化成NH2,Τ’或NHR1之文獻可 以在 M.B. Smith, Compendium of Organic Synthetic Methods, 第1-10冊,第7章(Wiley,第10冊:2002)内找到。
万法G
II (若T=NHRl) III (若T=鹵素i VI (若 T=r 或 τ”) 可以藉通式(VII)化合物與通式(VIII)化合物[其中Ra及 Ra各獨立為鹵素(較佳為Cl ’ Br或I),三氟甲燒續酸根或含 金屬(例如,B,Sn,Mg,Zn或Cu)之官能基,其實例為b(〇H)2 ,晒酸酯(較佳為衍生自1,2-或1,3-二醇之酯),三烷基錫(較 佳為Sn(CH3)3或Sn(nBu)3),Mg之鹵鹽,Zn或Cu之鹵鹽]之偶 合反應製備通式(II),(ΙΠ)或(VI)化合物。若Ra或Ra,為含金 屬之官能基,則其它取代基必需是卣素或三氟甲烷磺酸鹽。 此種偶合反應在該文獻中廣為人知。特別適合之偶合反 90273.doc -89- 1314145 應為Pd(0),Ni(0)或銅催化偶合反應,其係為熟悉本技藝者 热知之Stille偶合反應,Suzuki偶合反應,Negishi偶合反應 或Ullmann反應。這些反應之相關評論可以在]^以&1-Catalysed Cross-Coupling Reactions; F.Diederich and P.Stang (eds·); Wiley-VCH; Weinheim 1998 中找到。 在第二步驟中,可藉由使用上文一般性描述之方法(亦即 使T”變成NH2之脫除保護作用或轉化作用)使通式(VI)或 (II)化合物[其中R1非H]轉化成通式(II)化合物[其中R1為H]。 令人驚訝的是,現在頃發現就實用目的而言,該新穎通 式(I)化合物具有很有利的活性範圍可保護植物避免因真菌 及細菌與病毒侵襲而罹病。 可以在農業部門及其相關領域使用該通式⑴化合物作為 用以控制昆蟲之活性成份。該新穎化合物很優異,因為於 低撒藥率時,其具良好活性,植物對其具良好耐受性,其 在環境上具安全性。其具有很有用的治療,預防及系統的 性質,且可用於保護許多栽培植物。可使用該通式〗化合物 以抑制或捕滅有用植物之不同作物之植物或植物部份(果 實,花,葉,莖,塊莖,根)上所發現之昆蟲,同時亦保護 稍後成長的該植物部份免於受,例如,植物致病性微生物 的侵襲。 亦可使用通式(I)化合物作為治療植物繁植材料(特別為 種子(果只,塊至,殺粒)及植物插枝(稻米)之修整劑,以避 免真菌感染及避免發生於土壤之植物致病性真菌之感染。 而且,可使用根據本發明各該化合物以控制相關領域之 90273.doc -90- 1314145 真菌,例如,用以保護工藝材料,其包括木材及木材相關 工藝產物,用於食品貯存,衛生管理等等。 通式(I)化合物能有效對抗,例如,下述綱類之該植物致 病性真菌:不完全菌綱(例如,Botrytis,Pyricularia, Helminthosporium, Fusarium, Septoria, Cercospora及Altenaria) 及擔子菌綱(例如,Rhizoctonia, Hemileia,Puccinia)。此外 ,其亦能有效對抗子囊菌綱(例如,Venturia及Erysiphe, Podosphaera, Monilinia,Uncinula)及卵真菌綱(例如, Phytophthora, Pythium, Plasmopara)。已發現其能有效對抗 白粉菌(Erysiphe spp·)及銹菌(Puccinia spp.)。而且,該新穎 通式化合物I能有效對抗植物致病性細菌及病毒,例如,對 抗黃桿菌屬(Xanthomonas spp),假單胞菌屬(Pseudomonas spp),嗤澱粉伊文氏桿菌(Erwinia amylovora)及對抗於草鑲 礙病病毒(tobacco mosaic virus)。 在本發明範圍内,一般而言,欲保護之目標作為包括以 下植物物種:穀類(小麥,大麥,黑麥,燕麥,稻,玉米, 蜀麥及相關物種);甜菜(糖用甜菜及飼用甜菜);梨果,核 果及小果(蘋果,梨,李,桃子,杏仁,櫻桃,草莓,樹莓 及黑莓);豆科植物(蠶豆,小扁豆,豌豆,大豆);油科植 物(油菜,芥菜,罌粟,橄欖,向曰葵,椰子,蓖麻,可可 豆’落花生);黃瓜植物(南瓜,黃瓜,甜瓜);纖維植物(棉 花’亞麻,大麻,黃麻);柑橘水果(相·橘,擰檬,葡萄,桔 子蔬菜(菠菜,萵苣,蘆荀,甘藍,胡蘿蔔,洋蔥,蕃茄 ,馬鈐薯,紅椒);樟科植物(鱷梨,肉桂,樟腦)或植物, 90273.doc -91- 1314145 例如,煙草’堅果’咖啡’茄子’甘蔗,《,胡椒,藤本 植物,蛇麻子,香蕉及天然橡膠植物,觀賞植物。 可以以非修飾型式使用該 物技藝中習用之佐劑。為此 製成可乳化濃縮物,可塗覆 溶液’稀乳液,可濕性散劑 通式(I)化合物或較佳併用調配 目的’最好以已知方法將其調 糊狀物’可直接噴淋或稀釋之 ’可洛性散劑,微塵,顆粒, 及例如,聚合物物質之膠囊。如同各該组合物之種類,根 據該計劃目的及主要的情況選擇使用方法,例如,噴淋, 霧化,撒粉,散落,塗佈或澆注。該組合物亦可含有其它 佐劑,例如,安定劑,消泡劑,黏度調節劑,結合劑或膠 黏劑及肥料,微營養物施體,或可得到特別效果之其它調 配物。 適合之載劑及佐劑可以是固體或液體,且可以是用於調 配物技術之物質,例如,天然或再生礦物物質,溶劑,分 散劑’濕潤劑’膠黏劑’結合劑或肥料。此種載劑為,例 如,W0 97/33890中所述之載劑。 通常使用呈組合物型式之該通式(I)化合物,且可以同時 或與其它化合物連續施加至該欲處理之作物區域或植物。 這些其它化合物可以是’例如’肥料或微量營養物施體或 可影響植物生長之其它製劑。其亦可以是選擇性除草劑及 殺蟲劑’殺真菌劑’殺菌劑’殺線蟲劑,殺螺劑或幾種这 些製劑之混合物’若必要’可併用其它載劑,表面活化劑 或該調配物技藝習用之撒藥促進佐劑。 在某些情況下’該通式(I)化合物可以與其它殺真菌劑混 90273.doc -92- 1314145 合,產生令人料想不到的增效活性。更特別之混合組份為 峻類,例如,阿札可那唆(azaconazole),BAY 14120,比坦 醇(bitertanol),溴可那嗓(bromuconazole),環丙那峻 (cyproconazole),地芬那 σ坐(difenoconazole),地尼那唆 (diniconazloe),環氧那吐(epoxiconazole),芬布那峻 (fenbuconazole),氟 p奎那哇(fluquinconazole),氟碎峻 (flusilazole),|t 三咬醇(flutriafol),六康嗓(hexaconazole), 依碼札里(imazalil),依密本那吐(imibenconazole),依波那峻 (ipconazole),美特那吨(metconazole),月青菌嗤(myclobutanil) ,匹氟札特(pefurazoate),噴可那峻(penconazole),ι»比發婼司 (pyrifenox),丙氯拉(prochloraz),丙考那峻(propiconazole) ,西美那吐(simeconazole),替布那咬(tebuconazole),四可那 口坐(tetraconazole),三峻酮(triadimefon),σ坐菌醇(triadimenol) ,三氟咪岐(triflumizole),三替那峻(triticonazole);哺淀基 卡比醇(卩乂1^1111(^1171。&1:1^11〇16),例如,喊淀醇(&11〇)〇1^(11〇), 非那莫(fenarimol),諾端莫(nuarimol) ; 2-胺基-嘧啶,例如 ,丁 嘧啶酯(bupirimate),甲菌定(dimethirimol),乙嘧吩 (ethirimol);嗎啉,例如,嗎菌靈(dodemorph),芬撲定 (fenpropidine),芬必莫(fenpropimorph),螺西胺(spiroxamine) ,三迪莫(tridemorph);苯胺基嘧啶,例如,環丙地尼 (cyprodinil) ’美帕尼匹靈(mepanipyrim),匹靈美瑟尼 (pyrimethanil);吡咯’例如,芬哌克尼(fenpici〇nii),氟地奥 尼(fludioxonil);苯基醯胺,例如,苯拉昔(benalaxyl),呋喃 拉昔(furalaxyl),美塔拉昔(metaiaxyi),r_美塔拉昔,歐夫拉 90273.doc -93- 1314145 斯(ofurace),〃号二迪昔(oxadixyl);苯并咪峻,例如,苯菌 靈(benomyl),多菌靈(carbendazim),弟巴卡(debacarb),夫 波雷噠吐(fuberidazole),卩墓苯噠也(thiabendazole);二複酸胺 ,例如,氯岐ρ林内特(chlozolinate),二氯峻淋(dichlozoline) ,異丙二嗣(iprodione),麥可峻〃林(myclozoline),普西米酮 (procymidone),賓可吐〃林(vinclozoline);羧醯胺,例如,萎 銹靈(carboxin),芬夫倫(fenfuram),托拉尼(flutolanil), 美普尼(mepronil),奥普萎銹靈(oxycarboxin),西|t札酸胺 (thifluzamide);胍,例如,胍札淀(guazatine),多果峻(dodine) ,亞胺基辛淀(iminoctadine);嗜球果傘素(strobilurines),例 如,氧化偶氮史托比(azoxystrobin),克雷索辛(kresoxim)-曱 基,美托米諾史托比(metominostrobin),SSF-129,三氟西史 托比(trifloxystrobin) , 比可西史托比(picoxystrobin) , BAS 500F (建議名稱 ρ比拉羅史托比(pyraclostrobin)),BAS 520 ; 二硫代胺基甲酸鹽,例如,福美鐵(ferbam),代森錳鋅 (mancozeb),代森鐘(maneb),美替儉(metiram),甲基代森鋅 (propineb),塞命(thiram),代森鋅(zineb),福美鋅(ziram), N-鹵甲基硫四氫g太感亞胺,例如,卡他福(captafol),克菌 丹(captan),抑菌靈(dichlofluanid),氟米德(fluoromides),滅 菌丹(folpet),托利福德(tolyfluanid) ; Cu-化合物,例如,波 多(Bordeaux)混合物,氫氧化銅,氧氯化銅,硫酸銅,氧化 亞銅,門銅(mancopper),8-獲基邊》1林-銅;硝基紛-衍生物, 例如,敵蜗普(dinocap),确塞(nitrothal)-異丙基;有機-p-衍 生物,例如,敵瘟鱗(edifenphos),異丙本福(iprobenphos), 90273.doc -94- 1314145 異普硫能(isoprothiolane),伏敵芬(phosdiphen),定菌辑 (pyrazophos),托羅福(tolclofos)-甲基;各種其它組份,例如 ,阿昔苯拉(acibenzolar)-S-甲基,敵菌靈(anilazine),苯西里 卡(benthivavalicarb),殺稻痕菌(blasticidin)-S,幾諾美西内 特(chinomethionate),氣朗内(chloroneb),四氯二腈苯 (chlorothalonil),賽氟芬米德(cyflufenamid)’ 赛莫尼(cymoxanil) ,二氯萘 S昆(dichlone),二氯美?井(diclomezine),二氣倫 (dicloran),,鲍滅爾(diethofencarb),地美莫弗(dimethomorph) ’ S YP-LI90 (建議名稱:氟莫夫(flumorph)) ’ 二赛南(dithianon) ,依他波倫(ethaboxam),益崔二也(etridiazole),法莫11 号酮 (famoxadone),芬那米嗣(fenamidone) ’ 芬那尼(fenoxanil), 芬亭(fentin),福靈腙(ferimzone) ’ 氣淨南(fluazinam),氟硫 醯胺(flusulfamide),芬黑米德(fenhexamid),膦酸單乙酯 (fosetyl)-銘,甲基異 p号咬酮(hymexazol),異丙貝里卡(iprovalicarb) ,IKF-916 (赛嗤發米德(cyazofamid)),卡蘇米辛(kasugamycin) ,美他索福卡(methasulfocarb),美索芬酮(metrafenone),尼 可比芬(nicobifen),噴西休倫(pencycuron),苯自太,多氧菌素 (polyoxins),普羅苯吐(probenazole),普羅帕卡(propamocarb) ,派洛奎南(pyroquilon),喹諾西芬(quinoxyfen),五氯硝基 苯(quintozene),硫,三嗪奥昔(triazoxide),三環吐(tricyclazole) ’三福靈(triforine),貝里達黴素(validamycin),柔17号醯胺 (zoxamide)(RH7281)= 施用通式(I)化合物或含至少一種該化合物之農業化學組 合物之較佳方法為葉上施肥葉敷法。施藥之次數及施藥速率 90273.doc -95- 1314145 取決於經由該對應病原感染之危險。然而,該通式i化合物 亦可藉由土壤經由根莖滲透植物(系統作用),其方法為以液 體调配物型式浸透該植物所在位置,或以固體型式(例如, 呈顆粒型式)使用該化合物(土壤施肥)。就水稻作物而言, 可使用此種顆粒至水淹稻田。亦可施用該通式〗化合物至種 子上(塗佈法)’其步驟為以含該殺真菌劑之液體調配物浸滲 種子或塊莖,或使其經固體調配物塗覆。 以已知方法製備調配物[亦即,含該通式(I)化合物之組合 物]及若必要,固體或液體佐劑,一般而言其步驟為使該化 合物與增量劑(例如,溶劑,固體載劑及視需要選用之表面 活化化合物(表面活化劑))緊密混合及/或研磨。 孩農業化學調配物通常含〇丨至99重量% (較佳〇·丨至95重 1%)琢通式I化合物,99.9至1重量% (較佳99.8至5重量%) 固體或液體佐劑,〇至25重量% (較佳〇丨至^重量%)表面活 化劍。 通系,最佳施肥率為每公頃(ha) 5克至2公斤活性成份 (a.i·),較佳10克至丨公斤a.i /ha,最佳2〇克至6〇〇克a丨/ha。 當作為種子浸透劑時,最佳劑量為每公斤種子lG毫克至】克 活性物質。 然而,較佳將商業產物調製成濃縮液,最後用戶通常使 用稀釋碉配物。 以下非限制實例更詳細描述上述發明。 复例1 本實例說明第1 .〇 1號化合物之製法。 90273.doc -96- 1314145 於經冰冷卻之情況下使2-胺基-4,-乙炔基-聯苯(0.30克) 及1-曱基-3-三氟甲基_4_氣羰基吡唑(0 33克)在thF中化合 ’然後添加吡啶(〇.12毫升)。溫熱至環境溫度後,攪拌該懸 浮液3.5小時,注入水中’並經醋酸乙酯萃取兩次。分離該 有機相,經硫酸鈉乾燥,並蒸發該溶劑,在矽膠上經層析 純化(落劑:己烷··醋酸乙酯2 : 1)產生0.4克(70.2%)第1.01 號化合物。 實例2 本實例說明第2.01號化合物之製法。 於經冰冷卻之情況下,先後添加三乙胺(〇.32毫升)及2_胺 基-4’-三甲基矽烷基乙炔基-聯苯(〇·3克)及雙(2_氧基_3_哼 咪基)氯次膦酸(0.29克)至1-甲基-3-三氟曱基-4-吡咯羧酸 (0.22克)之1〇毫升二氯甲烷内。攪拌18小時後,於減壓下移 除該溶劑,並以醋酸乙酯萃取該殘留物。經水及鹽水洗滌 ,經硫酸鈉乾燥,並蒸發該溶劑,產生0.45克黃色油,使 其在矽膠上經層析(溶離劑:己烷:醋酸乙酯2 : 1 ),產生〇. 13 克(26%)第2.01號化合物。 實例3 本實例說明第1.72號化合物之製法。 添加2-Ν-甲醯基胺基-4,-(丙-卜炔基)-聯苯(0.3克)之10毫 升無水THF至NaH(46毫克)之5毫升無水THF内0-5°C。於該 溫度下保持該反應,費時1小時,其後,添加1-曱基-3-三氟 曱基-4-氯羰基-吡唑(0.372克)。於室溫下攪拌所形成懸浮液 ,費時一夜,注入鹽水内,並經醋酸乙酯萃取。蒸發該溶 90273.doc -97- 1314145 劑,並以甲醇萃取該殘留物,然後添加甲氧基鈉(丨〇毫克) 。30分鐘後,以稀HC1中和該混合物,經醋酸乙酯萃取,並 洗滌,直到中和為止。在矽膠上經層析純化(溶離劑:酷酸 乙酯:己烷1 : 2),並自甲苯:己烷(4: 1)再晶化,產生〇 169 克第1.72號化合物。 會例4 本實例說明使用根據上述方法F之製法製備2-胺基_4,_( 三甲基矽烷基)乙炔基-聯苯(第12.02號化合物)及2-胺基_4,- 乙块基-聯苯(第12.01號化合物)之方法。 於氮氣下依照順序添加Cul (0_ 1克),雙(三苯基膦基)二氯 化麵(0_35克)及三甲基矽烷基乙炔(28毫升)至25克2_胺基 -4’-溴-聯苯(WO 0264562)之哌啶(25毫升)内。於室溫下攪拌 該混合物,費時22小時,並於6〇。(:下再攪拌26小時。冷卻 後’以水稀釋該反應混合物,並經醋酸乙酯萃取。然後以 水洗滌該有機相,並在硫酸鈉上乾燥。在真空内蒸餾該溶 劑後,在矽膠上使該混合物經層析(己烷:醋酸乙酯9 : j) ’產生2_胺基_4’-(三甲基矽烷基)乙炔基-聯苯(2克)(第12.02 號化合物)。 使1.4克遠化合物溶解在甲醇(4〇毫升)内,並添加碳酸鉀 (0.9克)’同時冷卻。攪拌所形成懸浮液,費時2小時,倒在 冰水上,並濾出所形成沉澱物,經水徹底洗滌,並乾燥, 侍到呈淺褐色結晶型式之2-胺基-4,-乙炔基-聯苯(〇·9克)(第 12.01號化合物)。 f例5 90273.doc -98- 1314145 本實例說明2-N-曱酿基胺基_4(丙-1 -決基)-聯苯(第 12.16號化合物)之製法。 於氮氣下,使N-甲醯基胺基-4’-溴-聯苯(3.5克)(J. Chem. Soc. 1957, 4),三丁基錫(丙炔基-1)(5克)(購自Aldrich),四 (三苯基膦)鈀(0.3 7克)在甲苯(200毫升)中化合’並加熱至回 流,費時16小時。以水稀釋所形成暗色混合物,並經醋酸 乙酯萃取。以水洗滌該有機相,在硫酸鈉上乾燥,並於減 壓下蒸發該溶劑。使該殘留物溶於乙腈内,並重複經己烷 洗滌。於減壓下移除該乙腈後,使用矽膠,使該殘留物經 層析(溶離劑:己烷醋酸乙酯2 : 1),得到呈淺黃色粉末狀之 2-N-甲醯基胺基-4’-(丙-1-炔基)-聯苯(第12.16號化合物) (1.57克)。 實例6 本實例說明2-胺基-4,-(2,2-二氯)伸乙基-聯苯(第12.07號 化合物)及2-胺基-4,-(氯乙炔基)-聯苯(第12.04號化合物)之 製法。 a) 2-胺基_4’-(2,2-二氯)伸乙基-聯苯之製法。 添加水合肼(95%)(1.32克)至2-硝基-4,甲醯基-聯苯(2克) (W0 95 03290)(經由2-溴硝基苯與4-甲醯基-苯基__酸之 Pd_催化偶合反應所製成)之乙醇(70毫升)内,然後使所形成 '昆合物回流5小時。於減壓下使該溶劑蒸發至乾燥,使該殘 邊物懸浮在DMS0 (30毫升)内’然後連續添加氨(25%)(3毫 升)及新製成之CuCl (80毫克),最後於經水冷卻之情況下, 滴下四氯甲烷(3.8克)。於室溫下攪拌該混合物,費時24小 90273.doc •99- 1314145 時’將所形成綠色懸浮液注入水中,經二氯甲虎萃取,經 水洗滌,並在硫酸鈉上乾燥。使該溶劑蒸發,並在矽膠上 使該殘留物經層析(溶離劑:己烷:醋酸乙酯4 : 1),產生2-硝基-4’(2,2-二氯)伸乙基_聯苯(0.8克),熔點58_59°(:。 b) 2-胺基-4’(2,2-二氯)伸乙基-聯苯之製法。 使得自步驟(a)之2-硝基-4’(2,2-二氯)伸乙基-聯苯(0.76克) 溶於50%乙醇(30毫升)中,並加熱至回流。然後一滴滴添加 2N HC1 (0.3毫升)之50%乙醇(10毫升)内。於回流下維持該 反應混合物,費時4小時,冷卻至室溫,並過濾。以碳酸氫 鈉中和該濾出物,經醋酸乙酯萃取,並在硫酸鈉上乾燥該 有機相。於減壓下蒸發該溶劑,產生2-胺基-4’(2,2-二氯) 伸乙基-聯苯(0.62克)(第12.07號化合物)。 C)使2-胺基_4’(2,2-二氯)伸乙基-聯苯(3克)溶解在150毫 升二甲基亞砜中,其中已懸浮0.9克KOH (85%,散劑)。於 室溫度攪拌該混合物,費時一夜,經過量水稀釋,並經醋 酸乙酯萃取兩次,且使該有機相在硫酸鈉上乾燥。於減壓 下蒸發該溶劑,並在矽膠上使該殘留物經層析(溶離劑:己 烷:醋酸乙酯4 : 1)產生2.5克呈褐色固體型式之2-胺基 •4’(2,2-二氯)伸乙基-聯苯。 實例7 本實例說明第12.18克化合物之製法。 曼屋4 : 2-都[甚芒甲某矽烷基)-聯苯 使2-溴·硝基苯(0.86克),4-(三甲基矽烷基)苯基蝴酸(1克) 及雙(三苯基膦)_二氯化鈀(0.3克)溶解在二T氧基乙垸(35 90273.doc -100- 1314145 毫升)内,然後一滴滴添加碳酸氫鈉(1.3克)之水(5毫升)溶液 。使該混合物加熱3小時(80°C浴溫),冷卻至室溫’倒在醋 酸乙酿:水:1 : 1 (3〇〇毫升)上’並經吸滤。分離該有機相 ,在硫酸鈉上乾燥,並移除該溶劑。在矽膠上使所形成殘 留物(1.58克暗色油)經層析(溶離劑:己烷:醋酸乙酯:4 : 1) ,產生一種黃色油(1.12克)。在步驟B中使用該化合物。 步.驟B : 2-胺某-(4’-三甲基矽烷基聯茉[第12.18號化合物 使得自上述步驟A之化合物(0.995克)及甲酸銨(1.86克) 溶解在甲醇(30毫升)中,並經氮滌洗。分2份添加Pd (1〇〇毫 升,10%在碳上)至該溶液内。於室溫下攪摔1 5小時後,過 濾該反應混合物,並蒸發該溶劑。 通式⑴化合物之調配眚你丨 製備通式I化合物之調配物(例如,可乳化濃縮液,溶液, 顆粒,粉末’可濕潤散劑)之操作程序描述在W〇 97/33890 中〇 生物實例:殺真^[作用 f .例B-1 :抗puccinia recon4ita (小來葉錄病、夕作用 在喷藥室内以該調製試驗化合物⑼〇2%活性成份)處理i 週大的小麥幼苗(栽培品種Arina)。撒藥後一天,經由喷撒 孢子懸浮液(每毫升lxl〇5個夏孢子)在該試驗植物上使該小 麥幼苗經接種。於2(rc&95%相對濕度下,接種2天後,於 2〇°C及6〇%相對濕度下,在溫室内照料該幼苗8天。接種後 10天’砰估發病率。 使用以下各化合物可實際上芫全避免侵害%侵害率) 90273.doc -101- 1314145 • ΙΟΙ ’ 1.03,1.08,1.10 , 112,1.13,1·15,1·16,1.18 ’ 119 ’ 1.22,1.24,1_33,1.56,1.57,1.60,1.66,1.67 ’ 1.69 ’ 1_7〇 ’ 1.77 ’ 1.78,1.81,1.106,1.107,1.138,1.139 ,L151,1·152,1.154,1.155,1.182,1.185,1.25 卜 1.252 ’ 2.〇1,2.08,2.66,3.01,3.08,3.12,3.18,3_32,3.56 ,3.66’3,69,3.250,9.0卜9.06,9.15,9.2卜9.41,9.50 ’ 9·Μ ’ 9·59 ’ 15·25 ’ 15·26及 15.28。 ieuc〇tricha (韻果白粉痣、作闲 在喷藥室内以該調製試驗化合物(〇 〇2%活性成份)處理5 週大的蘋果樹苗(栽培品種McInt〇sh)。撒藥後一天,藉由在 該試驗幼苗上搖動已經過蘋果白粉病感染之幼苗,使該蘋 果幼苗經接種。於22°C及60。/。相對濕度下使用14/10小時之 光照方法接種12天後,評估發病率。 使用各以下化合物可實際上完全預防侵害(〇_5%侵害率) .L〇l,1.03,1.08,1.10,112,113,115,116,118 ,U9,1.24,1.33,1>35,136,156,1 57 , 1 66,167 ’ 1·7〇 ’ 1.77 ’ 1.78 ’ 1.8卜 ι_106,11〇7,1139,1151,1152 ’ 1.154,1.155,1.182,1.185 , 1251,1.252,2.01,2 08 ’ 2.66 ’ 3.01,3.08,3.12,3.18,3.32,3.35,3.56,3.66 ,3,69 ’ 3.250 ’ 9.01,9.06,9.15,9.21,9_41,9.50 ’ 9 53 ,9·59 ’ 9·62,15.25,15.26及 15.28。 . 先例B 3 · (蘋果繁革病、生 在噴藥室内以該調製試驗化合物(0.02%活性成份)處理4 週大的韻果樹苗(栽培品種McIntosh)。撒藥後-天,藉由將 90273.doc -102- 1314145 抱子懸浮液(每毫升4xl05個分生孢子)噴灑在該試驗植物上 ,使該蘋果幼苗經接種。於2 It:及95%相對濕度下,接種4 天後’於21°C及60%相對濕度下’將該幼苗放在溫室内4天 。再於21°C及95%相對濕度下接種4天後,評估發病率。 使用各以下化合物實際上可完全預防侵害(〇_5%侵害率) :1.01,1.03,1.08,1.10,1.12,1.13,1_18,119,124 ,1.33,1.56,1.57,1.66,1_67,1.69,1.70,177 ’ j 78 ’ 1.81 ’ 1.106,1.107,1.138,1.152,1.154,1.155,! 251 > 1.252 > 2.01 » 2.08 * 2.66 » 3.01 » 3.08 » 3.12 J 3 18 > 3 32 ,3.56,3.66,3.69,9.01,9.06,9.15,9.2卜 9.50及9.59。 實-例B-4 :抗Erysiphe graminis f女來白粉病、作」^ 在噴藥室内以該調製試驗化合物(0·02%活性成份)處理i 週大之大麥幼苗(栽培品種Regina)。撒藥後一夭跋 , 八猎由在孩 試驗幼苗上搖動經白粉病感染之幼苗,使該大麥幼菌經接 種。於20 C /18 C (日/夜)及60%相對濕度下在溫室内接種6 天後’評估發病率。 使用各以下化合物實際上可完全預防侵害(〇_5%侵堂率) :1.01,1.03,1.08,1.10,1_12,U3,115,116,i ,1.19 ’ 1.24,1.33,1.35,1.36,1.56,1 57【 1.66,1.67 ’ 1.70 ’ 1.77,1.78,1.106,1.107,1.152,1 ·155,ι·251, 1.252,2.01,2.08,2.66,3.01,3.08,3.12,1 1。 • 3.18,3.32, 3.35,3.56,3.66,3.69,3.250,9.01,9 06,〇 ^ ^.υ〇 9.15 » 9.21 > 9.41,9.50及9.59。 AAB^Jg.Bo^trytis^inerea m 90273.doc -103- 1314145 在喷藥室内,以該調製試驗化合物(〇.〇2%活性成份)處理 5週大的葡萄樹苗(栽培品種Gutedel)。撒藥後兩天,藉由將 孢子懸浮液(每毫升lxl06個分生孢子)噴灑在該試驗幼苗上 ’使孩葡萄樹苗經接種。於2rc及95%相對濕度下在溫室下 接種4天後,評估發病率。 使用各化合物1.01,i 〇3,i 08及11〇實際上可完全預防 侵害(0-5%侵害率)。 !例B-6 :抗B_〇trvtis r蕃茄灰霉病)作用 在噴藥室内,以該調製試驗化合物(0.02%活性成份)處理 4週大之蕃力p幼菌(栽培品種R〇ter Gn〇m) ^撒藥後兩天,藉 由將孢子懸浮液(每毫升lxl〇5個分生孢子)噴灑在該試驗幼 苗上’使該蕃茄幼苗經接種。於20°C及95%相對濕度下,在 生長室内接種4天後,評估發病率。 使用各以下化合物實際上可完全預防侵害(〇_5%侵害率) :1.01,1.03,1.08,1.1〇,1.12,1.13,1.15,1.16,1.18 ,1.19,1.24,1.33,1.36,1.56,1.57,1.66,1_67 , 1.69 ’ 1.70 ’ 1.77 ’ 1.78,1.106,1.107,1.138,1.139,1.152, 1.155,1.251,1.252,2.01,2.66,3.01,3.08,3.12,3.66 ’ 3.69,3.250,9.06,9.15,9·21,9.41,9.50及9.59。 f.例Β-7 : Septoria nodorum (小麥穎斑枯病、作闲 在噴藥室内以該調製試驗化合物(0.02%活性成份)處理j 週大的小麥幼苗(栽培品種Arina)。撒藥後一天,藉由將抱 子懸浮體(每毫升5xl05個分生孢子)喷灑在該試驗幼苗上, 使該小麥幼苗經接種。於2〇°C及95%相對濕度下,接種—天 90273.doc -104- 1314145 後’於20°C及60%相對濕度下,在溫室内照料該幼苗,費時 10天。接種後11天評估發病率。 使用各化合物1.01,1〇3,^⑽及11〇實際上可完全預防 侵害(0-5%侵害率)。 貫例 B-8 .抗 Helmititliosporium teres f 女枣網斑病) 在噴藥室内以該調製試驗化合物(0.〇2%活性成份)處理i 週大的大麥幼苗(栽培品種Regina)。撒藥後兩天,藉由將孢 子懸浮液(每毫升3xl〇4個分生孢子)噴灑在該試驗幼苗上, 使該大麥幼苗經接種。於2(rc及95%相對濕度下在溫室内接 種4天後,評估發病率。 使用各以下化合物實際上可完全預防侵害(〇_5%侵害率) :1.01,1.03,ΐ·〇8 , 110,112,113,115,116,118 ’ 1.19 ’ 1.22,1.24,1.33,1.36,1.35,1.56,1.57,1.60 ’ 1.66 ’ 1.67,1.69,1.70,1.77,1.78,1.81,1.106,1.107 ’ 1.138,1.139,1.15卜 1>152 ’ U54,1155,1182,1185 ,1.251,1.252,2.01,2.08,2.66,3.(Η,3.08,3_12,3,18 ,3.32,3.35,3.56,3.66,3.69,9.(Π,9.06,9.15,9.21 ,9.41 ’ 9.50 ’ 9.53 ’ 9.59 ’ 9.62,15.25 ’ 15.26及 15.28。 solani (暮益早游痛)作呵 在噴藥室内以該調製試驗化合物(〇〇2%活性成份)處理4 週大的蕃茄幼苗(栽培品種R〇ter Gn〇m) ^撒藥後兩天,藉由 將抱子懸浮液(每毫升2χ1〇5個分生?包子)喷灑在該試驗幼苗 上,使琢蕃茄幼苗經接種。於20〇C及95%相對濕度下在生長 室内接種3天後,評估發病率。 90273.doc -105· 1314145 使用各以下化合物實際上完全預防侵害(〇_5❶侵害率): 1.0卜 1.03, i.08, 1.10, U3, hl5, U6, 119, 122, 124 ,1.33 ’ 1.35,1.36 ’ 1.56,1.57,1.67,1.69,u,177 1.78 , 1.81 ’ 1.107 , 1.151 , 1.152 , 1.154 , 1.155 , 1 182 ,1.185 ’ 1.251 ’ 1.252,2·(Π,3.01,3.08,3 12,3 32,3 35 ^.56 ^3.69^ 9.01 ^ 9.06, 9.15. 9.41,9.50, 9.62iLl5.26〇 皇抗UlLcinulAne!tat〇r (葡菡白粉癌)作用 在噴藥室内以該調製試驗化合物(0.02%活性成份)處理5 週大的葡萄樹苗(栽培品種Gutedel) »撒藥後一天,藉由在 該試驗幼苗上搖動已經過葡萄白粉病感染之幼苗,使該葡 萄幼%經接種。於20 C及60°/。相對濕度下利用“/ίο小時(亮 /暗)光照方法接種7天後,評估發病率。 使用各以下化合物實際上可完全預防侵害(〇5 %侵害率) :1.01,1.03,1,08,1.10,1.12,1.13,1.18,L19,i.24 ,1.33 ’ 1.56,1.57,1·60,1.66,1.67,1.70,1.77 , 1 78 ’ 1.81,1·1〇6,1.107,1.138,1.139,1.151,1.152,1.154 ’ 1-155 ’ 1.182,1.185,1.251,1.252,2·(Η,2.08,2.66, 3.01,3.08,3.12,3.32,3.56,3.66,3.69 , 3.250,9.01, 9.06’9.15,9.4卜9_50,9_53及9.59〇 實例_^-UiL_Septoria tritici (小枣葉班病)作同 在噴藥室内以該調製試驗化合物(0.02%活性成份)處理2 週大之小麥幼苗(栽培品種Riband)。撒藥後一天,藉由將孢 子懸浮液(每毫升1 〇x 1 〇5個分生孢子)噴灑在該試驗幼苗上 ,使小麥幼苗經接種。於23°C及95%相對濕度下接種一天後 90273.doc -106- 1314145 ,於23 °C及60%相對濕度下在室溫内照料該幼苗,費時16 天。接種後18天,評估發病率。 在本試驗中,化合物 1.01,1.03,1.09,1.70,1.69,3.01 ,1.67,1.66,3.66,9.59,3.69,1.33,2.66,9.06,3.08 ,1.77,1,78,1.56,1.57,1.138,1·139,1.12,1.18,1.106 ,1.107,9.53,3.32,1·15卜 1.152,1.252,1.155,9,41, 3.56,1.13,3.12,9.21,1.250,1.19及3.18各顯示良好活性 (<20%發病率)。 ·· 90273.doc 107-

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  1. 呼36775號專利申請案 —請專利範圍替換本(98年4月 I、申請專利範圍: 種通式(I)化合物: R3
    其中Het為吡唑,吡咯或噻唑環,該環係經由丨,2或3個 Ry基團取代;R〗為氫;R2,R3&R4各獨立為氫,齒素, 曱基或CF3 ; R5為氫或氟;各!^獨立為鹵素,甲基或cF3 ’ R為(Z)mC=C(Y]);各r/獨立為鹵素,匸13烧基,Cl 3 鹵烷基’ C!·3烷氧基(C】·3)伸烷基或氰基;\為〇; γ〗為氫 ,鹵素,C!-4烷基[其可視需要經由一或多個各獨立選自 鹵素’羥基,Cw烷氧基’ Cw鹵烷氧基,Cl.4烷基硫, C^-4鹵烷基硫,CN4烷胺基,二(CbO烷胺基,Cl_4烷氧基 羰基及三(C!·4)烷基矽烷基之取代基取代],c2_4稀基[其 可視需要經由一或多個各獨立選自_素之取代基取代] ’ C2.4炔基[其可視需要經由一或多個各獨立選自_素之 取代基取代]’ C3-7環烷基[其可視需要經由一或多個各獨 立選自鹵素,C】.4烧基及Ci _4函烧基之取代基取代]戍= (C,-4)烷基矽烷基;2為(:〗-4伸烷基[其可視需要經由—或 多個各獨立選自羥基,氰基,Cw烷氧基,Cl_4蟲燒氧基 ’◦1.4燒基硫,。0011及(1100-(1!1-4烧基之取代基取代];1^ 為0或1 ;及η為0,1或2。 90273-980413.doc 1314145 2. 根據申請專利範圍第1項之通式(I)化合物,其中m=0。 3. 根據申請專利範圍第1項之通式(I)化合物,其中R7位於 該第4’位置處。 4. 根據申請專利範圍第1項之通式(I)化合物,其中R5為 氫。 5. 根據申請專利範圍第4項之通式⑴化合物,其中R2,R3 及R4為氫。 6. 根據申請專利範圍第1項之通式(I)化合物,其中n=0。 7. 一種化合物,選自3-二氟曱基-1-曱基-1H-吡唑-4-羧酸 [4'-(3,3-二甲基-丁-1-快基)-聯苯-2-基]-酿胺以及3-* —鼠 曱基-1-曱基-1H-吡唑-4-羧酸(4'-丙-1-炔基-聯苯-2-基) 醯胺。 8. 一種通式(II)化合物:
    其中R1,R2,R3,R4,R5,R6,R7及η如申請專利範圍第1 項之定義。 9. 一種通式(III)化合物: 90273-980413.doc -2- (III)1314145 R3
    其中R2,R3 ’ R4,R5 ’ R6 ’ R7及n如申請專利範圍第i項之 定義,而Hal為溴基’氯基或碘基;但其限制條件為該化 合物並非根據通式(HIa)化合物:
    (ilia) 其中Hal為氣;R2 ’ R3及r4各為氫以及R7為。 ίο. 11. 一種控制微生物並預防植物經其侵襲及感染之組合物 ,其中該活性成份為如申請專利範圍第】項之通式⑴化 合物,及適合載劑。 一種控制或預防栽培㈣受植㈣病微生物侵害之方 法,其步驟為施撒根據巾請專利範圍第旧之通式⑴化 合物至植物,至其部份或其所在地。 90273-980413.doc
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