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化学进展 2001, Vol. 13 Issue (01): 48- 前一篇   后一篇

• 综述与评论 •

环烯烃聚合物的合成和应用研究进展

吕英莹;胡友良;赵健   

  1. 中科院化学所
  • 收稿日期:1999-11-01 修回日期:2000-01-01 出版日期:2001-01-24 发布日期:2001-01-24
  • 通讯作者: 胡友良
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导出 被引次数 ( 70 | 12 )

Progress of Polymerization and Copolymerization with Ethylene of Cycloolefines

Zhao Jian;Lü Yingying;Hu Youliang   

  1. State Key Lab of Engineering Plastics, Center for Molecular Science, Institute of Chemistry,Chinese Academy of Sciences, Beijing 100080, China
  • Received:1999-11-01 Revised:2000-01-01 Online:2001-01-24 Published:2001-01-24
  • Contact: Hu You liang
综述了近年来环烯烃均聚物及其与A2烯烃共聚物的合成和应用的研究情况, 讨论了不同聚合体系(包括开环易位聚合和加成聚合) 的研究发展, 对各种催化剂的结构、催化聚合的机理, 以及所得聚合物、共聚物性能进行了详尽的描述, 同时报道了有关聚合产物应用的现况与前景。
关键词: 环烯烃, 聚合物, 合成, 应用
The synthesis research and application in polymerization of cycloolefines and copolymerization with A2olefin ( including addition polymerization and ring2opening metathesis polymerization ) are review ed1 The structures of the different catalysts, the mechanism of homopolymerization and copolymerization, the properties of polymers and copolymers are discussed in detail1 The applications of these polymers and copolymers are also reported1
Key words: cycloolefines, polymerization, synthesis, applications

中图分类号: 

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[ 1 ] US 2 721 189, 1955
[ 2 ] 朱树新. 开环聚合, 北京: 化学工业出版社, 1987, 233
[ 3 ] Ivin K J. Olefin Metathesis, New York: Academic Press 1983
[ 4 ] Startori G, Ciampoll F, Gameli W. Chim.Ind. , 1963, 45: 1478
[ 5 ] Anderson A W , Merckling N G. U S 2 721 189, 1955
[ 6 ] Polykova A M , Piate A F. Neftekhimiya, 1961, 1521
[ 7 ] Kaminsky W , Spiehl R. Makromol. Chem. , 1989, 190: 515
[ 8 ] Kaminsky W , Bark A , Dake I. in Catalytic Olefin Polymerization, (eds. Keii T, Soga K) , Tokyo 1990, 425
[ 9 ] Kaminsky W. Makromol.Chem. Macromol.Symp. , 1991, 47:83
[ 10 ] Tsujino T, Saeguss T, Purukawa J J. Die Makromolekulare Chemie, 1965, 85: 71
[ 11 ] Gaylord N G, Deshpande A B. J.Macrol.Sci. Chem. , 1979,5: 1053
[ 12 ] Koinzer J P, Langbein U , Taeger E. Ger.Pat. , 2 421 838
[ 13 ] Kennedy J P, Makowski H S. J.Macromol.Sci. Chem. ,1967,A 1: 345
[ 14 ] Wu Q , Lu Y Y, Lu Z J. Polym.Mater.Sci.& Eng., 1998,78: 483
[ 15 ] Kuempfel W , Wondracrek R H, Schütz H, et al. Acta Polym. ,1985, 36: 166
[ 16 ] Kuempfel W , Koinzer J P, Heublein G, et al. Acta.Polym. ,1986, 37: 410
[ 17 ] McKnight A L , Waymouth R M. Macromolecules, 1999, 32:2816; McKnight A L , Waymouth R M. Chem. Rev., 1998,98: 2587
[ 18 ] Kaminsky W , Bark A. Polym. Int. , 1992, 28: 251
[ 19 ] Kaminsky W. Catalyst, 1991, 33: 536
[ 20 ] Kaminsky W , Noll A. Polym. Bull. , 1993, 31: 175
[ 21 ] Sklenicka V , Lukas P, Kunz L: ES IS Publ. , 1993, 15: 27
[ 22 ] Barten W , Lueche M , Kamps M. Phys. Rev. Lett. , 1991, 66(20) : 2621
[ 23 ] Rodes L F. MetCon’ 95, Proceedings, May 17. Houston, 1995
[ 24 ] Schulz R G. Polym.Lett., 1966, 4: 541
[ 25 ] Tanielian C, Kiennemneler A , Sparprum O. Can.J.Chem.,1979, 57: 2022
[ 26 ] Sen A , Lai T W. J.Organomet.Chem., 1988, 358: 567
[ 27 ] Thomas F A , Haselwander W H, Stefan A , et al.Macromol.Chem.Phys., 1996, 197: 3435
[ 28 ] Adana S, Abu-Surrah, Bernhard K. J.Mol.Catal., A:Chem. , 1998, 128: 239
[ 29 ] McLain S J , Feldman J , McCord E F, et al.Polym.Mater.Sci.& Eng.1997, 76: 20
[ 30 ] Seehof N , Mehler C, Risse W. J.Mol.Catal, 1992, 76: 219
[ 31 ] Heitz W. Polym.Mater.Sci.& Eng., 1997, 76: 58
[ 32 ] Tsonis C, Farona F. J.Polym.Sci, Polym.Chem.Ed. 1984,22: 289
[ 33 ] Mohammed I M , Tsonis P. Polym.Bull. , 1984, 12: 475
[ 34 ] Kaminsky W , Miri M. J. Polym.Sci.Polym.Chem.Ed. ,1985, 23: 2151
[ 35 ] Goodall B L , Barness D A , Benedike G H, et al.Polym.Mater.Sci.& Eng., 1997, 76: 56
[ 36 ] Collin S, Kelly W. Macromolecules, 1992, 25: 233
[ 37 ] 谢光华, 王金梅, 张盛庆. 高分子学报, 1994, 4
[ 38 ] Kaminsky W , Bark A , Arndt M. Macromol.Chem.Macromol.Symp., 1991, 47: 83
[ 39 ] Kaminsky W , Bark A , Steiger R. J.Mol.Catal. A: Chem. ,1992, 74: 109
[ 40 ] Kaminsky W , Spiehl R. Macromol.Chem., 1989, 190: 515
[ 41 ] Kaminsky W , Noll A. Polym.Bull., 1993, 31: 175
[ 42 ] Kimio I, Itaru N. JP 10 152 540, 1998
[ 43 ] Mond A. Plast. Int., 1996, 26 (10) : 20
[ 44 ] Land H T, Osan F, Wehrmeister T. Polym. Mater.Sci.,1997, 76: 22
[ 45 ] Masaak K, Toshiyuk T. JP 10 07 732, 1998
[ 46 ] Zhang D F, Huang J L , Qian Y L , et al. J.Mol.Cat.A:Chem., 1998, 133: 131
[ 47 ] Qian Y L , Zhang D F, Huang J L , et al. J.Mol.Cat.A:Chem., 1998, 133: 135
[ 48 ] Amir-Ebrahimi V , Corry D A K, Hamilton J G, et al.J.Mol.Cat.A: Chem1, 1998, 133: 115
[ 49 ] Christo J. J.Mol. Catal.A: Chem., 1998, 135: 263
[ 50 ] Hamilton J G, Kay J , Rooney J J. J.Mol.Cat.A: Chem.,1998, 133: 83; Hamilton J G, Rooney J J , DeSimone J M , et al. Macromolecules, 1998, 31: 4387
[ 51 ] Brelow D S. Prog. Polym. Sci., 1993, 18: 1141
[ 52 ] Schrock R R. J. Am. Chem. Soc., 1993, 115: 4413
[ 53 ] Davis G R, Hubbard H V A , Ward I M , et al. Polymer,1995, 36: 235
[ 54 ] Schrock R R. Report, 7R-19-ONR, AD-A 264133, 1993, 11
[ 55 ] Stelzer F J M S.Pure Appl.Chem., 1996, A 33 (7) : 941
[ 56 ] Pflügl P P, Buchacher P, Eder E, et al. J.Mol.Cat.A:Chem., 1998, 133: 151
[ 57 ] Rizmi A C M , Khosravi E, Feast W J , et al. Polymer, 1998,39 (25) : 6605
[ 58 ] Zenkl E, Stelzer F. J.Mol. Catal., 1992, 76: 1
[ 59 ] Nguyen S T, Grubs R H. J. Am.Chem. Soc., 1993, 115:9858
[ 60 ] Grubbs R H. Hillmyer M , Benedicto A , et al. Polym.Prepr., 1994, 35 (1) : 688
[ 61 ] Weck M , Schwab P, Grubbs R H. Macromolecules, 1996,29: 1789
[ 62 ] Maughton B R, Grubbs R H. Macromolecules, 1996, 29: 5765
[ 63 ] Edwerds J H, Feast W J. Polymer, 1980, 21: 595
[ 64 ] Feast W J , Friend R H. J. Mater1 Sci., 1990, 25: 3796
[ 65 ] Miao Y J , Bazan G C. Macromolecules, 1994, 27: 1063
[ 66 ] Stanton C E, Lee T R, Grubbs R H. Macromolecules, 1995,28: 8713
[ 67 ] Craig G S W , Cohen R E, Schrock R R, Macromolecules,1994, 27: 1875
[ 68 ] Fujimura O , Mata F J , Grubbs R H. Organometallics, 1996,15: 1865; Fujimura O , Mata F J , Grubbs R H. J. Mol. Catal. Part A , 1996, 108 (1) : 23
[ 69 ] Komiya Z, Schrock R R.Macromolecules, 1993, 26: 1393
[ 70 ] Winhler B, Ungerank M , Stekzer F. Macromol. Chem.Phys., 1996, 197: 2343; Weck M , Maughon B R M , Mohr B,et al. Polym. Prepr., 1996, 37 (1) : 587
[ 71 ] Ungerank M , Winkler S R, Eder E, et al. Macromol. Chem. Phys., 1995, 196: 3623
[ 72 ] Fiala W J. European Patent Appl., EP 0 308 705, 1988
[ 73 ] Zhang N J , Schricker S R, Wudl F. Chem.Mater., 1995, 7(3) : 441
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