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Progress in Chemistry 2002, Vol. 14 Issue (06): 462- Previous Articles   Next Articles

• Review •

Aliphatic Polycarbonates Synthesized with Carbon Dioxide

Wang Dongxian*;Kang Maoqing;Wan Xinkui   

  1. Institute of Coal Chemistry, Chinese Academy of Sciences, Taiyuan 030001, China
  • Received: Revised: Online: Published:
  • Contact: Wang Dongxian
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The synthetic process and the catalytic systems used for the synthesis of aliphatic polycarbonates (APC) from carbon dioxide,as well as the physicochemical properties of APC and their modifications were reviewed. The properties of these copolymers and their applications are also described.
Key words: carbon dioxide, epoxides, copolymers, aliphatic polycarbonates

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[ 1 ] Inoue S, Ko inuma H, T suruta T. J. Polym. Sci. , Polym.Chem. Ed. , 1969, 7: 287
[ 2 ] 陈仙海(Chen X H) , 张一峰(Zhang Y F) , 沈之荃(Shen Z Q ). 精细石油化工( Fine Petroleum Chemical Industry) ,1991, (5) : 42—44
[ 3 ] 陈立班(Chen L B ). 高分子材料科学与工程(Polymer Materials Science and Engineering) , 1991, (1) : 7—13
[ 4 ] Rokicki A , Kuran W. J. Macromol. Sci. 2Rev. Macromol. Chem. , 1981, C21 (1) : 135—186
[ 5 ] 周忠清(Zhou Z Q ) , 钱延龙(Qian Y L ). 化学通报(Chemistry Bulletin) , 1984, (5) : 4—11
[ 6 ] 杨淑英(Yang S Y) , 陈立班(Chen L B). 天然气化工(Natural Gas Chemical Engineering) , 1991, 16 (3) : 47—49
[ 7 ] 陈家碧(Chen J B). 化学通报(Chemistry Bulletin) , 1975,(4) : 34—43
[ 8 ] 吉媛媛(Ji Y Y) , 阴丽华(Yin L H) , 王常有(Wang C Y).天然气化工(Natural Gas Chemical Engineering) , 1991,16 (2) : 52- 57
[ 9 ] Kobayashi M , Inoue S, Tsuruta T. J. Polym. Sci. ,Polym. Chem. Ed. , 1975, 11: 2383
[ 10 ] Hino Y, Yoshida Y, Inoue S. Po lym. , 1984, 16: 159
[ 11 ] Kuran W , Rokicki A. J. Polym. Sci. , Polym. Chem.Ed. , 1985, 23: 299
[ 12 ] Kuran W , Pasynkiewicz S, Skupinska J. Macromol.Chem. , 1977, 178: 47
[ 13 ] Kuran W , Rokicki A , Wilinska E. Macromol. Chem. ,1979, 180: 2153
[ 14 ] Darensbourg D J , Holtcamp M W. Macromolecules,1995, 28: 7577
[ 15 ] Darensbourg D J , Holtcamp M W , Stuck G E. J. Am.Chem. Soc. , 1999, 121: 107—116
[ 16 ] Darensbourg D J , Niezgoda S A , Draper J D, Reibenspies J H. J. Am. Chem. Soc. , 1998, 120: 4609
[ 17 ] Darensbourg D J , Zimmer M S. Macromolecules, 1999,32 (7) : 2137—2140
[ 18 ] Super M S, Berluche E, Costello C, Beckman E J. Macromolecules, 1997, 30: 368
[ 19 ] Shi C, Huang Z, Kilic S, Xu J , Enick R M , Beckman E J ,et al. Am. . Asso. Adv. Sci. , 1999, 286 (19) : 1540—1543
[ 20 ] Cheng M , Lovbkofsky E B, Coates G W. J. Am. Chem.Soc. , 1998, 120: 11018—11019
[ 21 ] Ree M , Bae J Y, Jung J H, Shin T J. J. Polym. Sci. A:Polym Chem. , 1999, 37: 1863—1876
[ 22 ] Lee B, Ree M , Jung J H. Macromolecular Chemistry and Physics, 2000, 201 (8) : 831—839
[ 23 ] Ree M , Jung J H, Shin T J , et al. Polymer Engineering and Science, 2000, 40 (7) : 1542—1552
[ 24 ] 周忠清(Zhou Z Q ). 河北化工(Hebei Chemical Engineering) , 1995 (1) : 47—50
[ 25 ] Chen L B. Macromol. Chem. , Macromol. Symp. , 1992,59: 75—82
[ 26 ] Chen L B. Chen H S, Lin J. J. Macromol. Sci. -Chem. ,1987, A 24 (3&4) : 253—260
[ 27 ] Inoue S. Contemp. Top. Polym. Sci. , 1984, 4: 343—360
[ 28 ] Jung J H, Ree M , Chang T. J. Polym. Sci. A: Polym Chem. , 1999, 37: 3329—3336
[ 29 ] Takeda N , et al. Macromol Chem. , 1978, 179: 1377
[ 30 ] Aida T, Ishikawa M , Inoue S. Macromokunles, 1986: 19(1) : 8—21
[ 31 ] 陈立班(Chen L B) , 林芳灵(Lin F L ) , 林欣欣(Lin X X) ,陈海生(Chen H S). 广州化工(Guangzhou Chemical Industry) , 1988, (2) : 29—32
[ 32 ] Tan C S, H su T J. Macromolecules, 1997, 30: 3147—3150
[ 33 ] Liu B Y, Zhao X J , Zhao D Q , et al. 6th Pacific Polymer Conference, Guangzhou: Preprints, 1999, 67
[ 34 ] Preprints China-Japan Bilateral Symposium on Effective Utilization of Carbon Resources, Guangzhou, China, 1991,P26
[ 35 ] Inoue S, Koinuma H, Tsuruta T. Die Macromolecular Chemie 130 (1969) : 210—220
[ 36 ] 陈立班(Chen L B) , 黄斌(Huang B). CN 91 109 459,1991
[ 37 ] Saito J , Kozawa S, Yamamoto H. U S 5 145 883, 1991
[ 38 ] Kuyper J , Lednor P W. U S 4 826 953, 1988
[ 39 ] Kuran W , Listos T. Macromo l. Chem. Phys. , 1994,195: 977
[ 40 ] 陈立班(Chen L B ) , 林欣欣(Lin X X) , 陈海生(Chen H S) , et al. 应用化学(Applied Chemistry) , 1988, 5 ( 4) :7—11
[ 41 ] 郭锦裳(Guo J S) , 博士学位论文(Doctoral Dissertation).天津大学(Tianjin University) , 1995
[ 42 ] 杨淑英(Yang S Y) , 彭汉(Peng H) , 黄斌(Huang B). 石油化工(Petroleum Chemical Engineering) , 1993, 22 (11) :732
[ 43 ] Kuran W , Gorecki P. Macromol. Chem. , 1983, 184: 907
[ 44 ] Dixon D D, Ford M , Mantell G J. J. Po lym. Sci. ,Polym. Chem. Ed. , 1980, 18: 131
[ 45 ] Kesling J , Haven S, Cannarsa. U S 4 851 507, 1988
[ 46 ] 杨淑英(Yang S Y) , 陈立班(Chen L B). 催化学报(Acta Cat. Sinica) , 1992, 13 (2) : 156
[ 47 ] 杨淑英(Yang S Y) , 陈立班(Chen L B) , 余爱芳(Yu A F) , 何树杰(He S J ). 高分子学报(Acta Polym. Sinica) ,1998, (3) : 338—343
[ 48 ] Robenson L M , Kuphal J A. U S 4 912 149, 1990
[ 49 ] 陈立班(Chen L B ). 高分子通报( Polymer Bulletin ).1999, (3) : 128—133
[ 50 ] 王剑钊(Wang J Z) , 黄玉惠(Huang Y H) , 丛广民(Cong G M ). 功能高分子学报, 1994, (2) : 181—186
[ 51 ] 杨淑英(Yang S Y) , 陈立班(Chen L B) , 林欣欣(Lin X X). 化工进展(Progress in Chemical Engineering) , 1998,(2) : 51—53
[ 52 ] Cuscurida M , Gibson R M. U S 4 488 982, 1984
[ 53 ] 陈立班(Chen L B). CN 89 100 701, 1990
[ 54 ] Chen X H, Shen Z Q , Zhang Y F. Macromoleucles, 1991,24: 5305—5308
[ 55 ] Chen L B, Huang B, Zhao J J. Journal of Natural Gas Chemistry, 1994, 3 (3) : 255; 1994, 3 (4) : 368
[ 56 ] 郭锦棠(Guo J S) , 孙经武(Sun J W ). 工业催化( Industry Catalysis) , 1996, (4) : 10—15
[ 57 ] Shohei Inoue. Polymer Letters, 1969, 7: 287—292
[ 58 ] 邹新伟( Zhou X W ) 等. 聚氨酯工业( Polyurethane Industry) , 1998, 13 (3) , 5—7
[ 59 ] 陈同蕙(Chen T H) , 周邦基(Zhou B J ). 化学工业与工程(Chemical Industry & Engineering) , 10 (1) : 42—45
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