WO2003072641A1 - Sulfinatgruppen enthaltende oligomere und polymere und verfahren zu ihrer herstellung - Google Patents
Sulfinatgruppen enthaltende oligomere und polymere und verfahren zu ihrer herstellung Download PDFInfo
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- WO2003072641A1 WO2003072641A1 PCT/DE2003/000733 DE0300733W WO03072641A1 WO 2003072641 A1 WO2003072641 A1 WO 2003072641A1 DE 0300733 W DE0300733 W DE 0300733W WO 03072641 A1 WO03072641 A1 WO 03072641A1
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- 0 C*(C)S(c(cc1)ccc1Oc1ccc(C(C)(*)c(cc2)ccc2Oc2ccc(C(C)(C)C)cc2)cc1)(=O)=O Chemical compound C*(C)S(c(cc1)ccc1Oc1ccc(C(C)(*)c(cc2)ccc2Oc2ccc(C(C)(C)C)cc2)cc1)(=O)=O 0.000 description 2
- QTXOGLCIQZLSHH-UHFFFAOYSA-N CC(C)(C)c(cc1)ccc1Oc(cc1)ccc1Oc(cc1)ccc1Oc(cc1)ccc1OC(C)(C)C Chemical compound CC(C)(C)c(cc1)ccc1Oc(cc1)ccc1Oc(cc1)ccc1Oc(cc1)ccc1OC(C)(C)C QTXOGLCIQZLSHH-UHFFFAOYSA-N 0.000 description 1
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Definitions
- sulfinated polymers can be modified in many ways by means of sulfinate-S-alkylation. This reaction can also be used to introduce functional groups into polymers that cannot be introduced using other methods. A selection of the new reactions found is shown in Fig. 1.
- the first group concerns the reaction of sultons with polymeric sulfinates, as shown for example in Fig. 2.
- any sulton can be used.
- the small ring sultons (4- and 5-ring) are more reactive than the large ring sultones (6-ring and larger) due to their high ring tension.
- the highest reactivities show the perfluorinated small ring sultons like the perfluorinated sulton shown in Fig. 2. Lactams, lactones and sultams as well as mixed compounds from these components can also be reacted with sulfinates.
- the second group of reactions is the surprisingly possible alkylation of polymeric sulfinates with haloaryl, haloalkyl and halobenzylammonium and phosphonium salts, as shown for example in FIG. 3.
- ammonium or phosphonium salt is not subject to any restriction, but preference is given to those ammonium or phosphonium salts which either have long alkyl (> propyl) - or the phenyl groups on the ammonium / phosphonium group, since such salts are better in the organic solvents are soluble in which the polymeric sulfinates are also soluble (dipolar aprotic solvents such as N, N-dimethylformamide DMF, N-methylformamide, N, N-dimethylacetamide DMAc, N, N-dimethylpyrrolidinone NMP, dimethylsulfoxide DMSO, sulfolane).
- dipolar aprotic solvents such as N, N-dimethylformamide DMF, N-methylformamide, N, N-dimethylacetamide DMAc, N, N-dimethylpyrrolidinone NMP, dimethylsulfoxide DMSO, sulfolane).
- crown ethers such as 18-crown-6, 15-crown-5 or 12-crown-4 can be added to the polymer solution, which complex the cation of the sulfinate group.
- halogen leaving groups of haloalkyl or benzyl compounds the following order of reactivity of the alkylation of the sulfinate group was found: I »Br> Cl» F.
- the following order of reactivity of the alkylation of the sulfinate group was found for the halogen leaving groups of haloaryl compounds: F »Cl>Br> I.
- halogen compounds reacting with polymeric sulfinates are, surprisingly, halogenated primary, secondary and tertiary aliphatic, aromatic and / or benzylic amines as well as halobenzyl amines and their hydrohalides, some of which are shown in FIG. 4.
- the amino groups can also be protected with an amine protecting group.
- the introduction of imidazole groups using the method according to the invention is also possible, as shown in FIGS. 4a and 4b.
- Fig. 4a describes the reaction of fluorinated arylimidazole derivatives with polymeric sulfinates
- Fig. 4b shows the reaction of haloalkyl imidazoles with polymeric sulfinates.
- a fourth group of reactions relates to the surprisingly possible S-alkylation of sulfinates with haloalkyl or haloaryl or halobenzyl sulfonates, phosphonates, carboxylates boronates or their nonionic precursors, some of which are shown in Fig. 5a.
- the nonionic precursors of the sulfonates, phosphonates and carboxylates are preferred because, on the one hand, they dissolve better in the organic solvents, which are also used to dissolve the polymeric sulfinates, and on the other no undesirable interactions with the sulfinate groups (such as the formation of ion pairs).
- crown ethers can also be added to the polymer sulfinate solutions and the haloaryl-haloalkyl or halobenzyl carboxylates, haloaryl, haloalkyl or halobenzylphosphonates or haloaryl, haloalkyl or halobenzylsulfonates or haloaryl, haloalkyl or halobenzylboronates in order to complex the cations of the salts.
- the aromatic fluorine compounds react best with sulfinates with S-alkylation. It has surprisingly been found that the addition of calcium compounds to the reaction mixture and / or the aftertreatment of the polymers, polymer blends, polymer (blend) membranes or other moldings from the reaction products according to the invention with aqueous solutions of calcium compounds favors the sulfinate-S-alkylation reaction.
- Calcium triflate trifluoromethanesulfonic acid calcium salt
- a calcium salt which is sparingly soluble in the organic solvent used to the reaction mixture, since even the smallest concentrations of calcium and fluoride ions in the reaction mixture are sufficient,. to precipitate calcium fluoride.
- Calcium mineral salts can also be added to the reaction mixture: calcium halides, calcium sulfate, calcium hydrogen sulfate, calcium phosphates and calcium phosphates, calcium oxide, calcium hydroxide and other calcium salts.
- Fig. 5b shows the postulated course of the reaction of a polymeric Li sulfinate with pentafluorobenzenesulfonyl chloride.
- the covalently crosslinked ionomer membranes formed have a surprisingly low ionic resistance with a surprisingly low water absorption (swelling) (see application examples).
- Ionomer membranes leads to particularly high chemical stability and low swelling even at high temperatures.
- hetaryl halogen compounds Another, fifth group of substances that surprisingly can react with polymeric sulfinates with S-alkylation are hetaryl halogen compounds, a selection of which is shown in Fig. 6.
- Fig. 7 shows exemplary reactive groups of dyes that react with sulfinate groups under S-alkylation.
- the order of the affinity of the (het) aromatic halogen compounds for the S-alkylation reaction is F>Cl>Br> I.
- the reactive groups are not limited to halogen residues, but can also have masked or unmasked vinyl sulfone groups or other unsaturated olefin groups.
- olefins which have electron-withdrawing groups (for example sulfone groups, sulfonate groups, sulfonamide groups, sulfonimide groups, nitro groups, halogen groups, nitroso groups, carbonyl groups, carboxyl groups).
- Fig. 8 shows examples of reactive dyes that react according to the invention.
- One area of application for polymers colored with reactive dyes in this way is non-linear optics.
- the advantage of these polymers is that the dyes are permanently bound to the polymer by the alkylation reaction according to the invention. It has also been found, surprisingly, that the method according to the invention can also be used to introduce functional groups into polymers into which these groups cannot normally be introduced.
- a metalation reaction can be used to introduce a functional group into metallizable polymers that has intrinsic conductivity (Fig. 9) 6 .
- a group of polymers which can not be metalated are, would then add up at the carbonyl organometallic ⁇ compounds such as n-butyl lithium, the polyether ketones.
- the method according to the invention opens up. now a way to introduce the intrinsically conductive group into polyether ketones.
- the sulfochloride groups are reduced to sulfinate groups using, for example, sodium sulfite.
- the sulfinate groups can then be alkylated with a halogen-containing compound that contains the intrinsically conductive functional group (Fig. 10).
- alkylation groups F, Cl, Br, I
- Halobenzyl groups Hal-CH 2 -Ar
- polymers according to the invention with alkylation groups are, in particular, halogen-methylated polymers (for example chloromethylated polystyrene, bromomethylated polysulfone).
- membranes or other moldings which contain alkylation groups are swollen in a suitable organic solvent which contains low or high molecular weight sulfinate compounds.
- the alkylation takes place either superficially or in bulk.
- covalently crosslinked thin films (membranes) or other molded articles can be produced from polymers by means of sulfinate-S-alkylation in one step by preparing the following reaction mixtures in a first step:
- a sulfinated polymer is dissolved in a suitable solvent.
- An alkylating agent or a mixture of various alkylating agents is then used for the solution, the alkylating agent.
- can also have 2 or more alkylation groups ( crosslinker), added.
- the alkylating agents can also have further functional groups, for example cation exchange groups or their nonionic precursors or anion exchange groups or their nonionic precursors.
- a polymer containing alkylation groups e.g. a halogen methylated polymer
- a suitable solvent e.g. a halogen methylated polymer
- one or more low or high molecular weight compound (s) containing sulfinate groups are added to the solution.
- the sulfinates can also have further functional groups, for example cation exchange groups or their nonionic precursors or anion exchange groups or their nonionic precursors.
- reaction mixtures are doctored out on a base (glass, metal or plastic plate, fabric, fleece).
- the solvent is then evaporated off by increasing the temperature and / or using reduced pressure. The alkylation reactions take place during the solvent evaporation.
- the 2 or more alkylation groups must be added to the reaction mixture (1) contain.
- An example of a high molecular weight crosslinker that can be used according to the invention is a halomethylated polymer (chloromethylated polystyrene, bromomethylated polysulfone). Examples of low molecular weight crosslinkers are shown in Fig. 11.
- the crosslinkers can also have further functional groups, for example basic or acidic functional groups (FIG. 11) or their nonionic precursors.
- Covalently cross-linked cation exchange membrane made of PSU sulfinate and (2-chloroethane) sulfonic acid chloride
- the alkylation reactions take place during membrane formation.
- the membrane is then removed under water and an aftertreatment is carried out as follows, in which the sulfochloride is hydrolyzed to the sulfonic acid: 48 h at room temperature-90 ° C in 10% HC1 48 h at room temperature-60 ° C in water. '
- Covalently cross-linked cation exchange membrane made of PSU sulfinate and (2-bromoethane) diethyl phosphonate
- the membrane is then removed under water and an aftertreatment is carried out as follows, in which the phosphonic acid ester is hydrolyzed to the phosphonic acid: 48 h at room temperature-90 ° C in 10% NaOH 48 h at room temperature-90 ° C in IN HC1 48 h at room temperature-60 ° C in water
- the membrane is then removed under water and aftertreated as follows: 24 h at RT-90 ° C in 10% CaCl 2 24 h at RT-90 ° C in 10% NaOH 48 h at RT-90 ° C in IN HC1 for 48 h RT-90 ° C in water
- Post-treatment steps can also be omitted, or the order of
- Post-treatment steps can be changed.
- Trifluorobenzenesulfonic acid chlorides and tetrafluorobenzenesulfonic acid chlorides are also possible. It is also possible to add other crosslinkers, such as bis (3-nitro-4- fluorophenyl) sulfone, bis (4-fluorophenyl) phenylphosphine oxide or corresponding crosslinker with additional sulfohalide groups (bis (3-chlorosulfo-4-fluorophenyl) sulfone. The addition of dihaloalkanes or benzyl halides is also possible.
- a polymeric sulfinate (see Table 1) is dissolved in NMP. To do this, enter
- Fluorobenzenesulfonoyl chloride or a fluorobenzoyl chloride see Table 1. The mixture is stirred until homogeneous. You roll out the solution on a glass plate and steam it
- Post-treatment steps can also be omitted, or the order of
- Post-treatment steps can be changed.
- Ionomer membranes with fluorinated pentafluorobenzenesulfonic acid chloride and additional crosslinker 3 g of a polymeric sulfinate (see Table 2) are dissolved in NMP. 1.95 g of pentafluorobenzenesulfonic acid chloride are added to this (see Table 2). Then add an aromatic crosslinker. Stir until homogenization. The solution is knocked out on a glass plate and the solvent is evaporated off at temperatures of 130-140 ° C. and 700 to 1 mbar. The membrane is then removed under water and treated as follows:
- Post-treatment steps can also be omitted, or the order of the post-treatment steps can be changed.
- a calcium salt that can be used in the reactions in Examples 13 and 14 is calcium trifluorosulfonate (calcium triflate) because this salt is soluble in NMP and other dipolar aprotic solvents.
- Trifluorbenzolsulfonklarechlorid Stir until homogenization. The solution is scraped out on a glass plate and the solvent is evaporated at temperatures of 130-140 ° C. and
- ionomer membrane with pentafluorobenzenesulfonic acid chloride membrane 1302
- PSU PSU
- 3-nitro-4-fluorophenyl bis (3-nitro-4-fluorophenyl) sulfone.
- the mixture is stirred until homogeneous.
- the solution is knocked out on a glass plate and the solvent is evaporated off at temperatures of 130-140 ° C. and 700 to 1 mbar.
- the membrane is then removed under water and aftertreated as follows: 24 h at RT-90 ° C in 10% CaCl 2 48 h at RT-90 ° C in IN HC1 48 h at RT-90 ° C in water
- Pentafluorbenzolsulfonklarechlorid Stir until homogenization. You loll them Solution on a glass plate and evaporates the solvent at temperatures of 130-140 ° C and 700 to 1 mbar. The membrane is then removed under water and aftertreated as follows: 24 h at RT-90 ° C in 10% CaCl 2 48 h at RT-90 ° C in IN HC1 48 h at RT-90 ° C in water
- the radicals R 6 are, independently of one another, the same or different 1,2-phenylene, 1, 3-phenylene, 1,4-phenylene, 4,4'-biphenyl, a divalent radical of a heteroaromatic, a divalent radical of a C 10 aromatics , a divalent radical of a C 14 ⁇ aromatic and / or a divalent pyrene radical.
- a C 10 aromatics is naphthalene, for a C 14 aromatics phenanthrene.
- the substitution pattern of the aromatic and / or heteroaromatic is arbitrary, in the case of phenylene, for example, R 6 can be ortho-, meta- and para-phenylene.
- radicals R 7 , R 8 and R 9 denote single-, four- or three-bonded aromatic or heteroaromatic groups and the radicals U, which are the same within a repeating unit, represent an oxygen atom, a sulfur atom or an amino group which is a hydrogen atom , a group having 1-20 carbon atoms, preferably a branched or unbranched alkyl or alkoxy group, or an aryl group as a further radical.
- polymers having recurring units of the general formula (1) belong to homopolymers and copolymers, for example random copolymers, such as Victrex ® 720 P and Astrel ®.
- Very particularly preferred polymers are polyaryl ethers, polyaryl thioethers, polysulfones, polyether ketones, poly pyrroles, polyfmophenes, polyazoles, polyphenylenes, polyphenylene vi ⁇ ylenes, polyanilines, polyazulenes, polycarbazoles, polypyrenes, polymdophenines x d polyvinyl pyridines, in particular: polyaryl ethers:
- n denotes the number of repeating units along a macromolecule chain of the polymer.
- This number of repeating units of the general formula (1) along a Mal ⁇ Omolekül chain of the crosslinked polymer is preferably an integer greater than or equal to 10, in particular greater than or equal to 100.
- the number of repeating units of the general formula (1A), (1B), ( IC), (1D), (1E), (1F), (IG), (1H), (II), (1J), (1K), (1L), (IM), (IN), (10) , (1P), (IQ), (1R), (IS) and / or (IT) along a macromolecule chain of the crosslinked polymer are an integer greater than or equal to 10, in particular greater than or equal to 100.
- the tardant average molecular weight of the macromolecule chain is greater than 25,000 g / mol, advantageously greater than 50,000 g / mol, in particular greater than 100,000 g / mol.
- low molecular weight sulfinates can be S- or O-alkylated 1 .
- the alkylation of sulfinates with methyl iodide to form a methyl sulfone has been described.
- polymers containing sulfinate groups can be covalently crosslinked by means of di- or oligohalogenalkanes through sulfinate-S-alkylation 2 ' 3 .
- sulfinate groups can be alkylated via nucleophilic aromatic substitution 4 .
- sulfinations are capable of Michael-type addition to olefins that have electron-withdrawing groups 5 .
Abstract
Description
Claims
Priority Applications (7)
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AU2003229264A AU2003229264A1 (en) | 2002-02-28 | 2003-02-28 | Oligomers and polymers containing sulfinate groups, and methods for producing the same |
CN038095246A CN1649943B (zh) | 2002-02-28 | 2003-02-28 | 改性聚合物或聚合物共混物或混合膜或成型体、其制备方法和应用 |
EP03724825A EP1587859A1 (de) | 2002-02-28 | 2003-02-28 | Sulfinatgruppen enthaltende oligomere und polymere und verfahren zu ihrer herstellung |
DE10390721T DE10390721D2 (de) | 2002-02-28 | 2003-02-28 | Sulfinatgruppen enthaltende Oligomere und Polymere und Verfahren zu ihrer Herstellung |
JP2003571341A JP4827044B2 (ja) | 2002-02-28 | 2003-02-28 | スルフィナート基を含むオリゴマー及びポリマー、並びにその製造方法 |
US10/929,991 US7288599B2 (en) | 2002-02-28 | 2004-08-30 | Oligomers and polymers containing sulfinate groups, and method for producing the same |
US11/869,530 US20080090972A1 (en) | 2002-02-28 | 2007-10-09 | Oligomers and Polymers Containing Sulfinate Groups, and Methods for Producing the Same |
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DE10209786.0 | 2002-02-28 | ||
DE10208679.6 | 2002-02-28 | ||
DE10208679 | 2002-02-28 | ||
DE10261784.8 | 2002-12-23 | ||
DE10261784A DE10261784A1 (de) | 2002-02-28 | 2002-12-23 | Alkylierung der Sulfinatgruppen sulfinierter Polymere |
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US10/929,991 Continuation US7288599B2 (en) | 2002-02-28 | 2004-08-30 | Oligomers and polymers containing sulfinate groups, and method for producing the same |
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EP (1) | EP1587859A1 (de) |
CN (1) | CN1649943B (de) |
AU (1) | AU2003229264A1 (de) |
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WO2006018020A2 (de) * | 2004-08-20 | 2006-02-23 | Universität Stuttgart | Ionomere mit ionogenen gruppen in der seitenkette |
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CN104607074A (zh) * | 2015-01-13 | 2015-05-13 | 广东工业大学 | 一种含偶氮苯聚酰胺反渗透复合膜的制备方法 |
CN109395616A (zh) * | 2018-12-10 | 2019-03-01 | 天津工业大学 | 一种核孔蛋白接枝均孔聚碳酸酯仿生蛋白传输膜及其制备方法 |
WO2023170131A1 (de) * | 2022-03-11 | 2023-09-14 | Forschungszentrum Jülich GmbH | Stoff, verfahren zur herstellung eines stoffs, membran, verwendung einer membran, elektrodenkatalysatorlayer und verwendung eines stoffs |
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DE10209784A1 (de) * | 2001-09-01 | 2003-12-04 | Univ Stuttgart Inst Fuer Chemi | Sulfinatgruppen enthaltende Oligomere und Polymere und Verfahren zu ihrer Herstellung |
US20070077478A1 (en) * | 2005-10-03 | 2007-04-05 | The Board Of Management Of Saigon Hi-Tech Park | Electrolyte membrane for fuel cell utilizing nano composite |
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- 2003-02-28 WO PCT/DE2003/000733 patent/WO2003072641A1/de active Application Filing
- 2003-02-28 AU AU2003229264A patent/AU2003229264A1/en not_active Abandoned
- 2003-02-28 DE DE10390721T patent/DE10390721D2/de not_active Expired - Lifetime
- 2003-02-28 EP EP03724825A patent/EP1587859A1/de not_active Withdrawn
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- 2004-08-30 US US10/929,991 patent/US7288599B2/en not_active Expired - Lifetime
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US20150064609A1 (en) * | 2004-08-20 | 2015-03-05 | Thomas Häring | Ionomers with ionic groups in the side chain |
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AU2003229264A1 (en) | 2003-09-09 |
US7288599B2 (en) | 2007-10-30 |
CN1649943A (zh) | 2005-08-03 |
US20080090972A1 (en) | 2008-04-17 |
DE10390721D2 (de) | 2005-02-10 |
CN1649943B (zh) | 2011-03-02 |
EP1587859A1 (de) | 2005-10-26 |
US20050165172A1 (en) | 2005-07-28 |
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