公开(公告)号：US4093568A

公开(公告)日：1978-06-06

申请号：US738223

申请日：1976-11-02

申请人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Mitsunobu Fukumoto ,  Kyoji Kimoto ,  Itaru Watanabe ,  Shigeo Yokoyama

发明人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Mitsunobu Fukumoto ,  Kyoji Kimoto ,  Itaru Watanabe ,  Shigeo Yokoyama

IPC分类号： C08F8/00 ,  C08F8/06 ,  C08J5/22 ,  C25B1/46 ,  C25B13/08 ,  C25B13/00 ,  C25C7/04

CPC分类号： C25B1/46 ,  C08J5/2293 ,  C08J2327/18

摘要： A perfluorocarbon type cation exchange membrane prepared by treatment with an oxidizing agent of a cation exchange membrane containing perfluorocarbon polymers having specific pendant N-sulfonamide groups has improved electrochemical characteristics when used as a membrane in electrolysis of aqueous alkali halide solution.

摘要翻译： 通过用含有特定N-侧磺酰胺侧基的全氟化碳聚合物的阳离子交换膜的氧化剂处理制备的全氟化碳型阳离子交换膜，当在碱性卤化物水溶液的电解中用作膜时，具有改善的电化学特性。

公开(公告)号：US4209367A

公开(公告)日：1980-06-24

申请号：US782713

申请日：1977-03-30

申请人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Kyoji Kimoto ,  Toshioki Hane ,  Mitsunobu Fukumoto ,  Itaru Watanabe ,  Sakae Tsushima

发明人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Kyoji Kimoto ,  Toshioki Hane ,  Mitsunobu Fukumoto ,  Itaru Watanabe ,  Sakae Tsushima

IPC分类号： C25B13/08 ,  B01J47/12 ,  C08J5/22 ,  C25B1/46

CPC分类号： C08J5/2281 ,  C08J2327/12

摘要： An electrolytic cell having anode and cathode chambers separated by a cation exchange membrane comprising a fluorocarbon polymer containing pendant carboxylic acid or salt groups of the formula ##STR1## wherein R is a group containing perfluoroalkyl or perfluoroalkoxy having 1 to 5 carbon atoms and M is hydrogen, an alkali or alkaline earth metal or ammonium as a surface stratum on the cathode side of the membrane. The fluorocarbon polymer may also contain sulfonic acid groups of the formula ##STR2##

摘要翻译： 一种具有由阳离子交换膜隔离的阳极和阴极室的电解槽，其包含含有侧羧酸或下式的盐基的碳氟聚合物，其中R是含有1至5个碳原子的全氟烷基或全氟烷氧基，M是氢 ，作为膜的阴极侧的表面层的碱金属或碱土金属或铵。 氟碳聚合物还可以含有式（IMAGE）的磺酸基团

公开(公告)号：US4151053A

公开(公告)日：1979-04-24

申请号：US887761

申请日：1978-03-17

申请人： Naomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Mitsunobu Fukumoto ,  Kyoji Kimoto ,  Itaru Watanabe ,  Toshioki Hane ,  Sakae Tsushima

发明人： Naomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Mitsunobu Fukumoto ,  Kyoji Kimoto ,  Itaru Watanabe ,  Toshioki Hane ,  Sakae Tsushima

IPC分类号： C08J5/22 ,  C08J7/12 ,  C25B1/46 ,  C25B1/16 ,  C25B1/26 ,  C25B13/08

CPC分类号： C08J7/12 ,  C08J5/2293 ,  C25B1/46 ,  C08J2327/12

摘要： Cation exchange membrane comprising a fluorocarbon polymer characterized by the presence of pendant carboxylic acid groups of the formula -- OCF.sub.2 COOH -- and derivatives thereof.

摘要翻译： 阳离子交换膜包含氟碳聚合物，其特征在于存在式-COCF 2 COOH - 侧羧酸基团及其衍生物。

公开(公告)号：US4123336A

公开(公告)日：1978-10-31

申请号：US781410

申请日：1977-03-25

申请人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Kyoji Kimoto ,  Yoshinori Masuda

发明人： Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Kyoji Kimoto ,  Yoshinori Masuda

IPC分类号： C08J5/22 ,  C25B1/46 ,  C25B13/08

CPC分类号： C25B1/46

摘要： An aqueous alkali metal halide solution is electrolyzed in an electrolytic cell using a cation exchange membrane which is a fluorocarbon polymer containing sulfonic acid groups and at least one cation exchange group which is less acidic than the sulfonic acid group with higher proportion of the latter in surface stratum on the cathode side of the membrane than in the entire membrane, while controling proton concentration in the anolyte at not higher than critical proton concentration at which no substantial amount of protons in the anolyte penetrate into the membrane.This invention relates to a process for electrolysis of an aqueous alkali metal halide solution using a cation exchange membrane comprising a fluorocarbon polymer containing sulfonic acid groups and at least one cation exchange group with weaker acidity than the sulfonic acid group.It has been known to the art to utilize for electrolysis of aqueous alkali halide solutions, a cation exchange membrane of a perfluorocarbon polymer containing pendant sulfonic acid groups obtained by saponification of a membrane prepared from a copolymer of tetrafluoroethylene and perfluoro-3,6-dioxa-4-methyl-7-octene sulfonyl fluoride. This known perfluorocarbon type cation exchange membrane containing onyl sulfonic acid groups, however, has the disadvantage that the membrane tends to permit penetration therethrough of hydroxyl ions back migrating from the cathode compartment because of the high hydrophilicity of the sulfonic acid groups. As a result, the current efficiency during electrolysis is low. This is a special problem when the electrolysis is used for the production of aqueous solution of caustic soda at concentrations of more than 20 percent. In this reaction, the current efficiency is so low that the process is economically disadvantageous compared with electrolysis of aqueous solutions of sodium chloride by conventional mercury or diaphragm processes.The disadvantage of such low current efficiency can be alleviated by lowering the exchange capacity of the sulfonic acid group to less than 0.7 milliequivalent per gram of the H form dry resin. Such lowering results in decrease in water content in the membrane, whereby the concentration of fixed ions in the membrane is relatively higher than in a membrane of higher exchange capacity so that the loss of current efficiency during electrolysis is slightly improved. For example, when a caustic soda solution with a concentration of 20% is to be recovered during electrolysis of sodium chloride, the current efficiency can be improved to about 80%. Improvement of current efficiency by decrease of ion exchange capacity of the membrane, however, results in a serious decrease in the electroconductivity of the membrane, so that the method is at an economic disadvantage. Moreover, it is difficult to produce a commercial cation exchange membrane of perfluorosulfonic acid type which can be improved in current efficiency to approximately 90% by increase of membrane resistance.In order to overcome the drawbacks mentioned above, it has been suggested in U.S. Pat. No. 3,784,399, German Pat. OLS No. 2437395, U.S. Pat. No. 3,969,285 and Japanese Patent Applications No. 84111/1975 and No. 84112/1975 (U.S. Patent Application Ser. No. 701,515) to use cation exchange membranes comprising fluorocarbon polymers containing cation exchange groups with weaker acidity than sulfonic acid on one side of the cation exchange membrane of sulfonic acid type for electrolysis of an aqueous alkali metal halide solution. When electrolysis is carried out by use of such a cation exchange membrane, a high current efficiency can be attained by decrease in water content on the side on which the exchange groups with weaker acidity are present. The thickness of the stratum wherein said groups are present can be as thin as 100 A or more, which is extremely thin as compared with the entire thickness of the membrane, whereby electric resistance can be made very low so as to achieve a lower cell voltage.Even in electrolysis by use of such a cation exchange membrane as mentioned above, however, current efficiency is found to be lowered, and there is an increase of voltage when the proton concentration in the anolyte surpasses a certain critical value. In some cases, cleavage or peel-off may occur on a part of the membrane. Said critical value is dependent on various factors such as the temperature, current density, current efficiency, the anolyte concentration, the thickness of the stratum on the cathode side on which the exchange groups with weaker acidity are present, the thickness of desalted layer, etc. It has now been found that these difficulties usually occur at high temperature, current density and current efficiency, which are just the conditions most favorable for commercial practice of the process from the standpoint of decreased fixed charges and proportional costs.The object of the present invention is to provide a process for electrolysis of an aqueous alkali metal halide solution free from the above problems.The above object is found to be accomplished by use of a specifically selected cation exchange membrane and by carrying out electrolysis while controlling proton concentration in the anolyte at a value which is not higher than a critical value at which no substantial number of protons will penetrate into the membrane. As a result, electrolysis at a high current efficiency with lower voltage can be effected stably for a long period of time.The present invention provides a process for electrolysis of an aqueous alkali metal halide solution in an electrolytic cell in which anode and cathode are separated by a cation exchange membrane to divide said cell into anode and cathode chambers, said cation exchange membrane being made of a fluorocarbon polymer containing cation exchange groups consisting of sulfonic acid groups and at least one weaker cation exchange group with weaker acidity than the sulfonic acid group, the cation exchange groups in the surface stratum on the cathode side of the membrane being richer in said weaker cation exchange groups than in the entire membrane, proton concentration in anolyte being maintained at not higher than the critical proton concentration.The term "critical proton concentration" herein used in the specification and claims refers to the critical value of the concentration of protons in the anolyte at which hydroxyl ions migrating through the cation exchange membrane are neutralized on the interfacial liquid film on the anode side of the membrane so that no substantial amount of protons in the anolyte may penetrate into the membrane, and is generally determined from the equations as set forth below.The cation exchange membrane used in the present invention comprises a copolymer having the repeating units (I) and (II) as shown below:--CF.sub.2 --CXX'-- (I) ##STR1## wherein X represents F, Cl, H or --CF.sub.3 ; X', F, Cl, H or --CF.sub.3 ; R pendant group containing cation exchange groups. Said copolymer may further contain other units derived from copolymerizable monomers. The membrane contains cation exchange groups as mentioned above in the amount of 900 to 2,000, preferably 1,000 to 1,600, in terms of equivalent weight (grams of dry resin containing one equivalent of ion exchange groups). The ratio of the weaker cation exchange groups based on the total cation exchange groups through the entire membrane is up to 40 mol %, the mol percent being based upon the weight of the whole membrane, preferably up to 20 mol %. The thickness of the membrane to be used in commercial application is from 50 to 500 microns, preferably from 100 to 250 microns.According to the presently preferred method, the membrane of the invention is prepared by subjecting the membrane containing sulfonic acid groups as cation exchange groups to chemical treatment, especially on the surface thereof, to convert a part of sulfonic acid groups into the weaker cation exchange groups. Details of the methods for production of the membrane used in the present invention, i.e., the membrane containing sulfonic groups as cation exchange groups as mentioned above, are described in, for example, U.S. Pat. Nos. 3,282,875 and 3,718,627 and GB 1,184,321. The subject matter in these patents are incorporated herein by reference.The cation exchange membrane used in the present invention may have a homogeneous equivalent weight throughout the membrane or alternatively be a composite film consisting of two or more layers with different equivalent weights. In the latter case, the composite consists preferably of two layers with a difference in equivalent weight of 150 or more. The layer with larger equivalent weight is present on the cathode side of the membrane with a thickness of up to 1/2 of the entire thickness of the composite.The cation exchange groups with lower acidity than sulfonic acid group may include carboxylic acid groups, phosphoric acid groups, phosphite groups, sulfonamide groups, N-mono-substituted sulfonamide groups, alcoholic or phenolic hydroxyl groups, thiol groups and sulfinic acid groups. Among them, carboxylic acid groups and phosphoric acid groups are preferable from the standpoint of their characteristics and stabilities. In particular, carboxylic acid groups are most preferred.One example of the cation exchange membranes preferably used in the present invention is the cation exchange membrane comprising a fluorocarbon polymer containing on one side pendant groups R having terminal groups --OCF.sub.2 COOM (wherein M is hydrogen, metal or ammonium ion) with the remainder of terminal groups being the groups --OCF.sub.2 CF.sub.2 SO.sub.3 M (M is the same as defined above). This membrane can be produced by treatment with a reducing agent of a membrane containing sulfonyl derivatives such as sulfonyl halide groups, as disclosed by Japanese Patent Applications No. 84111/1975 and 84112/1975, the subject matter of which is herein incorporated be reference.The proportion of the exchange groups with weaker acidity than sulfonic acid group in surface stratum on the cathode side of the membrane based on the total exchange groups in said stratum may ordinarily fall within the range from 10 to 100 mol %, preferably from 20 to 100 mol %, most preferably from 40 to 100 mol %. The thickness of the stratum, in which the exchange groups with weaker acidity than sulfonic acid group are present, will normally be from 100 A to 20 microns.The membranes used in the present invention are desirably reinforced with backings made of nets of polytetrafluoroethylene fibers or porous films of polytetrafluoroethylene, etc. to increase the methanical strength thereof.The weaker cation exchange groups may be present throughout the entire membrane together with sulfonic acid groups, provided that their proportion increases relative to sulfonic acid groups in the direction towards the surface on the cathode side of the membrane. Further, the weaker exchange groups may also be present on the anode side of the membrane in lower proportion than in the surface stratum on the cathode side of the membrane. Practically, however, to practice commercial electrolysis while using less electric power, it is sufficient and advantageous to have the weaker cation exchange groups present substantially in a surface stratum with a thickness of 100 A to 20 microns only on the cathode side of the membrane, with the cation exchange groups in residual portion, especially on the anode side of the membrane, being mostly sulfonic acid groups.According to the present invention, it is also required to maintain proton concentration in the anolyte at not higher than the critical proton concentration as mentioned above, thereby to maintain a high current efficiency and prevent increase in voltage, and also to prevent the stratum with higher proportion of the weaker cation exchange groups on the cathode side of the membrane from being peeled away from the membrane. By this method, the membrane life can be prolonged to a great extent to make possible stable running periods of long duration.

摘要翻译： 碱性金属卤化物水溶液在电解池中电解，使用阳离子交换膜，该阳离子交换膜是含有磺酸基的氟碳聚合物和至少一个阳离子交换基团，该阳离子交换基团比磺酸基团酸性低，后者表面的比例较高 同时控制阳极电解液中的质子浓度不高于阳极电解液中大量质子渗透到膜中的临界质子浓度。

公开(公告)号：US4072793A

公开(公告)日：1978-02-07

申请号：US705431

申请日：1976-07-15

申请人： Itaru Watanabe ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Sakae Tsushima ,  Mitsunobu Fukumoto

发明人： Itaru Watanabe ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Sakae Tsushima ,  Mitsunobu Fukumoto

IPC分类号： D03D19/00 ,  B01J47/12 ,  C08J5/22

CPC分类号： C08J5/2218 ,  Y10T428/3154 ,  Y10T442/167

摘要： A leno-woven fabric of a specific construction is found to effectively reinforce an ion-exchange membrane at a scarce density of reinforcing yarns to improve electrochemical property of the reinforced ion-exchange membrane.

摘要翻译： 发现具有特定结构的罗林织物可以有效地加强稀薄密度的增强纱线上的离子交换膜，以改善增强离子交换膜的电化学性能。

公开(公告)号：US4126589A

公开(公告)日：1978-11-21

申请号：US851481

申请日：1977-11-14

申请人： Masato Hamada ,  Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Fumihiko Yamamoto

发明人： Masato Hamada ,  Maomi Seko ,  Yasumichi Yamakoshi ,  Hirotsugu Miyauchi ,  Fumihiko Yamamoto

IPC分类号： C25B13/08 ,  B01J47/12 ,  C08J5/22 ,  B01D3/00

CPC分类号： C08J5/225 ,  C08J2327/12

摘要： A fluorocarbon polymer membrane having pendant sulfonamide groups is first treated with anion radicals and then hydrolyzed for conversion into a cation exchange membrane having carboxylic groups and sulfonic acid groups.

摘要翻译： 首先用阴离子自由基处理具有侧酰胺基团的碳氟聚合物膜，然后水解转化成具有羧基和磺酸基的阳离子交换膜。

公开(公告)号：US4332665A

公开(公告)日：1982-06-01

申请号：US152780

申请日：1980-05-23

申请人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

发明人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

IPC分类号： B01J47/12 ,  C08J5/22 ,  C25B13/08

CPC分类号： C08J5/2293 ,  C08J2327/12

摘要： A fluorinated cation exchange membrane characterized by the gradual decrease in proportion of the density of carboxylic acid and/or carboxylate groups relative to the total density of carboxylic acid and/or carboxylate groups and sulfonic acid and/or sulfonate groups from one surface of the membrane to the other surface or an internal plane therewithin. The cation exchange membrane of the present invention can be prepared by treating one surface of a membrane comprising a fluorocarbon polymer containing pendant groups of the formula:--OCF.sub.2 CF.sub.2 SO.sub.2 Xwherein each X independently is fluorine, chlorine, bromine, hydrogen, ammonium, a quaternary ammonium or a metal atom,with a treating agent having a reducing activity in the presence of a reaction controlling agent selected from carboxylic acids, sulfonic acids, alcohols, nitriles and ethers. The cation exchange membrane of the present invention has an excellent performance in use for electrolysis and can be used stably under severe electrolysis conditions for a long period of time without bringing about partial cleavage or peeling-off, cracking and/or blistering of the carboxylic acid group-richer surface layer thereof.

摘要翻译： 一种氟化阳离子交换膜，其特征在于羧酸和/或羧酸酯基团的密度的比例相对于羧酸和/或羧酸酯基团的总密度和磺酸基和/或磺酸酯基从膜的一个表面逐渐降低 到另一个表面或其中的内部平面。 本发明的阳离子交换膜可以通过处理包含含有式-OCF 2 CF 2 SO 2 X侧基的氟碳聚合物的膜的一个表面来制备，其中每个X独立地为氟，氯，溴，氢，铵，季铵或 在选自羧酸，磺酸，醇，腈和醚的反应控制剂的存在下，具有还原活性的处理剂。 本发明的阳离子交换膜在电解用途中具有优异的性能，并且可以在严格的电解条件下长期稳定地使用，而不会导致羧酸的局部裂解或剥离，裂化和/或起泡 其更丰富的表面层。

公开(公告)号：US4329434A

公开(公告)日：1982-05-11

申请号：US152847

申请日：1980-05-23

申请人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

发明人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

IPC分类号： C07C309/82 ,  C07C309/84 ,  C07C317/18 ,  C07C323/12 ,  C07D327/04 ,  C08F8/04 ,  C08F8/12 ,  C08F214/18 ,  C08F214/26 ,  C08F216/14 ,  C08J5/22 ,  B01J39/00

CPC分类号： C07D327/04 ,  C07C309/82 ,  C07C309/84 ,  C07C317/18 ,  C07C323/12 ,  C08F214/184 ,  C08F214/262 ,  C08F216/1466 ,  C08F8/04 ,  C08F8/12 ,  C08J5/2237 ,  C08J2327/12

摘要： A novel fluorinated cation exchange membrane containing carboxylic acid groups and sulfonic acid groups, both in the form of a specific pendant structure, the carboxylic acid groups being at least 20% on one surface of the membrane and gradually decreasing toward the innerside of the membrane, which membrane is useful in electrolysis of an aqueous alkali metal halide solution with advantageously stable performance for a long term under more severe operational conditions than those conventionally used. The membrane can be prepared from a novel copolymer of a fluorinated olefin with a novel sulfur containing fluorinated vinylether of the formula: ##STR1## wherein k is 0 or 1, l is an integer of 3 to 5, Z is --S-- or --SO.sub.2 -- and R is C.sub.1 -C.sub.10 alkyl, an aryl, Cl or C.sub.1 -C.sub.10 perfluoroalkyl.

摘要翻译： 一种含有羧酸基团和磺酸基团的新颖的氟化阳离子交换膜，两者都是特定侧挂结构的形式，羧酸基团在膜的一个表面上至少为20％，并逐渐朝向膜的内层减少， 所述膜可用于电解碱金属卤化物水溶液，其在比常规使用的操作条件更严格的操作条件下长期具有稳定的性能。 膜可以由氟化烯烃与新型含硫氟化乙烯基醚的新型共聚物制备，其具有下式：其中k为0或1，l为3至5的整数，Z为-S-或 - SO2-和R是C1-C10烷基，芳基，C1或C1-C10全氟烷基。

公开(公告)号：US4536352A

公开(公告)日：1985-08-20

申请号：US330608

申请日：1981-12-14

申请人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

发明人： Kyoji Kimoto ,  Hirotsugu Miyauchi ,  Jukichi Ohmura ,  Mikio Ebisawa ,  Toshioki Hane

IPC分类号： B01D71/32 ,  B01J39/16 ,  B01J39/18 ,  B01J47/12 ,  C07C309/80 ,  C07C309/82 ,  C07C309/84 ,  C07C317/18 ,  C07C323/12 ,  C07D327/04 ,  C08F8/04 ,  C08F8/12 ,  C08F214/08 ,  C08F214/18 ,  C08F214/26 ,  C08F216/14 ,  C08J5/22 ,  C08L27/12 ,  C25B13/08 ,  C07C143/70

CPC分类号： C25B13/08 ,  C07C309/82 ,  C07C309/84 ,  C07C317/18 ,  C07C323/12 ,  C07D327/04 ,  C08F214/08 ,  C08F214/184 ,  C08F214/262 ,  C08F216/1466 ,  C08F8/04 ,  C08F8/12 ,  C08J5/2237 ,  C08J2327/12

摘要： A novel fluorinated copolymer is prepared by copolymerization of a fluorinated olefin with a novel sulfur containing fluorinated vinylether of the formula: ##STR1## wherein k is 0 or 1 and l is an integer of 3 to 5, which is prepared from starting materials which are also novel. Said copolymer is useful for preparation of a fluorinated cation exchange membrane having carboxylic acid groups and/or sulfonic acid groups which can be used advantageously in electrolysis of an aqueous alkali metal halide solution with improved electrolysis performance.

摘要翻译： 通过使氟化烯烃与新型含硫氟化乙烯基醚共聚制备新的含氟共聚物，其具有下式：其中k为0或1，l为3至5的整数，其由原料制备，其为 也小说。 所述共聚物可用于制备具有羧酸基团和/或磺酸基的氟化阳离子交换膜，其可有利地用于电解具有改进的电解性能的碱金属卤化物水溶液。

公开(公告)号：US4414338A

公开(公告)日：1983-11-08

申请号：US279156

申请日：1981-06-30

申请人： Kyoji Kimoto ,  Hirotsugu Miyauchi

发明人： Kyoji Kimoto ,  Hirotsugu Miyauchi

IPC分类号： C08F8/00 ,  B01J47/12 ,  C08J5/22 ,  C25B13/08 ,  B01J39/20

CPC分类号： C08J5/2293 ,  C08J2327/18

摘要： A cation exchange membrane prepared from a blend of two different fluorinated polymers, each containing cation exchange groups selected from carboxylic acid groups, sulfonamide groups, N-monosubstituted sulfonamide groups and sulfonic acid groups, having different exchange capacities with a difference of at least 200 therebetween in terms of equivalent weight. This membrane has been found to be useful in the electrolysis of an aqueous alkali metal halide solution and can give improved results in such an electrolysis.

摘要翻译： 由两种不同氟化聚合物的共混物制备的阳离子交换膜，每种含氟聚合物各自含有选自羧酸基团，磺酰胺基团，N-单取代磺酰胺基团和磺酸基团的阳离子交换基团， 以当量计。 已经发现该膜可用于电解碱金属卤化物水溶液，并且可以在这种电解中得到改善的结果。