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Progress in Chemistry 2007, Vol. 19 Issue (01): 136-144 Previous Articles   Next Articles

• Review •

Ring-Opening Homopolymerization of Lactides

Yu Cuiping 1**;Li Xi1; Shen Zhiquan2   

  1. 1. Department of Chemical and Biochemical Engineering, Zhejiang University, Hangzhou 310027, China;2. Department of Polymer Science and Engineering, Zhejiang University, Hangzhou 310027, China
  • Received: Revised: Online: Published:
  • Contact: Yu Cuiping
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Polylactides(PLA), biodegradable aliphatic polyesters, are derived from renewable resources. Polylactides have unique physical properties that make them useful in many applications including packaging, paper coating, fibers, and films. The production and use of PLA at low costs and in large quantities will lessen the dependence on petrochemical greatly. High molecular weight PLA can be prepared by ring-opening polymerization of lactides. Three different classes of initiators or catalysts and reaction mechanisms for the ring-opening polymerization of lactides are summarized.Recent progress in the research of novel catalysts for the lactides polymerization is reviewed. In particular, the advantages of rare earth catalysts for the ring-opening polymerization of lactides are emphasized, and biological virtue of polylactides obtained by rare earth catalysts is discussed.
Key words: lactides, ring-opening polymerization, rare earth catalysts, biodegradable aliphatic polyesters

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[ 1 ] Sodergard A , Stolt M. Prog. Polym. Sci . , 2002 , 27 : 1123 —1163
[ 2 ] Lofgren A , Albertsson A C , Dubois P , et al . J . Macromol . Sci . ,Rev. Macromol . Chem. Phys. , 1995 , C35 : 379 —418
[ 3 ] Matsumura S , Mabuchi K, Toshima K. Macromol . Rapid Commun. , 1997 , 18 : 477 —482
[ 4 ] Kricheldorf H R , Dunsing R. Makromol . Chem. , 1986 , 187 :1611 —1625
[ 5 ] Kricheldorf H R , Boettcher C. Makromol . Chem. , 1993 , 194 :1665 —1669
[ 6 ] Jedlimski Z. Makromol . Chem. , 1991 , 192 : 2051 —2057
[ 7 ] Hsueh ML , Huang B H , Lin J W, et al . Macromolecules , 2005 ,38 : 9482 —9487
[ 8 ] Kuran W. Prog. Polym. Sci . , 1998 , 23 : 919 —992
[ 9 ] Jacobs C , Dubois P , Jerome R , et al . Macromolecules , 1991 ,24 : 3027 —3034
[10] Dubois P , Jacobs C , Jerome R , et al . Macromolecules , 1991 ,24 : 2266 —2270
[11] Vanhoorne P , Jerome R , Teyssie P. Macromolecules , 1992 , 25 :37 —44
[12] Vion J M, Jerome R , Teyssie P , et al . Macromolecules , 1986 ,19 : 1828 —1838
[13] Song C X, Feng X D. Macromolecules , 1984 , 17 : 2764 —2767
[14] Dubois P , Barakat I , Jerome R , et al . Macromolecules , 1993 ,26 : 4407 —4412
[15] Zhong Z Y, Dijkstra P J , Feijen J . J . Am. Chem. Soc. , 2003 ,125 : 11291 —11298
[16] Wisniewski M, Le Borgne A , Spassky N. Macromol . Chem.Phys. , 1997 , 198 : 1227 —1238
[17] Bhaw-Luximon A , Jhurry D , Spassky N. Polym. Bull . , 2000 ,44 : 31 —38
[18] Jhurry D , Bhaw-Luximon A , Spassky N. Macromol . Symp. ,2001 , 175 : 67 —80
[19] Nomura N , Ishii R , Akakura M, et al . J . Am. Chem. Soc. ,2002 , 124 : 5938 —5939
[20] Cheng M, Attygalle A B , Coates G W, et al . J . Am. Chem.Soc. , 1999 , 121 : 11583 —11584
[21] Chamberlain B M, Cheng M, Coates G W, et al . J . Am. Chem.Soc. , 2001 , 123 : 3229 —3238
[22] Spassky N , Wisniewski M, Pluta C , et al . Macromol . Chem.Phys. , 1996 , 197 : 2627 —2637
[23] Ma H Y, Melillo G, Okuda J , et al . Dalton Trans. , 2005 ,721 —727
[24] Kricheldorf H R , Sumbel M. Eur. Polym. J . , 1989 , 25 : 585 —591
[25] Kricheldorf H R , Berl M, Scharnagl N. Macromolecules , 1988 ,21 : 286 —293
[26] Aubrecht K B , Hillmyer M A , Tolman W B. Macromolecules ,2002 , 35 : 644 —650
[27] Kowalski A , Libiszowski J , Duda A , et al . Macromolecules ,2000 , 33 : 1964 —1971
[28] Kricheldorf H R , Lee S R , Bush S. Macromolecules , 1996 , 29 :1375 —1381
[29] Finne A , Albertsson A C. Biomacromolecules , 2002 , 3 : 684 —690
[30] Kowalski A , Duda A , Penczek S. Macromolecules , 2000 , 33 :7359 —7370
[31] Kricheldorf H R , Kreiser-Saunders I , Stricker A.Macromolecules , 2000 , 33 : 702 —709
[32] Ryner M, Stridsberg K, Albertsson A C , et al . Macromolecules ,2001 , 34 : 3877 —3881
[33] Nijenhuis A J , Grijpma D W, Pennings A J . Macromolecules ,1992 , 25 : 6419 —6424
[34] Shu J , Wang P , Zheng T , et al . J . Appl . Polym. Sci . , 2006 ,100 : 2244 —2247
[35] 沈之荃(Shen Z Q) , 孙俊全(Sun J Q) , 吴良江(Wu L J) 等.化学学报(Acta Chim. Sinica) , 1990 , 48 : 686 —689
[36] 申有青(Shen Y Q) , 张一峰(Zhang Y F) , 沈之荃(Shen Z Q) 等. 高分子学报(Acta Polymerica Sinica) , 1995 , ( 2) :222 —227
[37] 姚英明(Yao Y M) , 沈琪(Shen Q) , 扈晶余(Hu J Y) . 应用化学(Chinese Journal of Applied Chemistry) , 1998 , 15 (1) :62 —64
[38] Stevels W M, Ankone M J K, Feijen J , et al . Macromolecules ,1996 , 29 : 6132 —6138
[39] Stevels W M, Ankone M J K, Feijen J , et al . Macromolecules ,1996 , 29 : 3332 —3333
[40] Yu C P , Zhang L F , Shen Z Q , et al . Polym. Bull . , 2004 , 52 :329 —337
[41] Yu C P , Zhang L F , Shen Z Q , et al . J . Polym. Sci . Part A:Polym. Chem. , 2004 , 42 : 6209 —6215
[42] Zhang L F , Shen Z Q , Yu C P , et al . J . Mol . Catal . A:Chem. , 2004 , 214 : 199 —202
[43] Zhang L F , Shen Z Q , Yu C P , et al . Polym. Int . , 2004 , 53 :1013 —1016
[44] 孙俊全(Sun J Q) , 崔立强(Cui L Q) , 吴兰亭(Wu L T) . 功能高分子学报(J . Functional Polymer) , 1996 , 9(2) : 252 —256
[45] Chamberlain B M, Sun Y, Tolman WB , et al . Macromolecules ,1999 , 32 : 2400 —2402
[46] Beckerle K, Hultzsch K C , Okuda J . Macromol . Chem. Phys. ,1999 , 200 : 1702 —1707
[47] Ma H Y, Okuda J . Macromolecules , 2005 , 38 : 2665 —2673
[48] Aubrecht K B , Chang K, Tolman W B , et al . J . Polym. Sci .Part A: Polym. Chem. , 2001 , 39 : 284 —293
[49] Amgoune A , Thomas C M, Carpentier J F , et al . Chem. Eur.J . , 2006 , 12 : 169 —179
[50] Yuan M L , Xiong C D , Deng X M, et al . J . Appl . Polym. Sci . ,1999 , 73 : 2857 —2862
[51] Kricheldorf H R , Damrau D O. Macromol . Chem. Phys. , 1997 ,198 : 1767 —1774
[52] Stolt M, Sodergard A. Macromolecules , 1999 , 32 : 6412 —6417
[53] O’Keefe B J , Monnier S M, Tolman WB , et al . J . Am. Chem.Soc. , 2001 , 123 : 339 —340
[54] Zhong Z Y, Dijkstra P J , Feijen J , et al . Macromolecules , 2001 ,34 : 3863 —3868
[55] Chisholm M H , Eilerts N W, Huffman J C , et al . J . Am. Chem.Soc. , 2000 , 122 : 11845 —11854
[56] Wu J C , Huang B H , Lin C C , et al . Polymer , 2005 , 46 :9784 —9792
[57] Ejfler J , Kobylka M, Sobota P , et al . Dalton Trans. , 2005 ,2047 —2050
[58] Sanchez-Barba L F , Hughes D L , Bochmann M, et al .Organometallics , 2006 , 25 : 1012 —1020
[59] Bukhaltsev E , Frish L , Vigalok A , et al . Org. Lett . , 2005 , 7 :5123 —5126
[60] Chivers T , Fedorchuk C , Parvez M. Organometallics , 2005 , 24 :580 —586
[61] Canelas D A , De Simone J M. Adv. Polym. Sci . , 1997 , 133 :103 —104
[62] Sarbu T , Styranec T , Beckman E J . Nature , 2000 , 405 (6783) :165 —168
[63] Hile D D , Lee Amirpour M, Akgerman A , et al . J . Controlled Release , 2000 , 66(2/3) : 177 —185
[64] Pack J W, Kim S H , Park S Y, et al . Macromol . Symp. , 2005 ,224 : 85 —91
[65] Kim Y, Jnaneshwara G K, Verkade J G. Inorg. Chem. , 2003 ,42 : 1437 —1447
[66] Russell S K, Gamble C L , Hofmeister G E , et al .Macromolecules , 2005 , 38 : 10336 —10340
[67] Kim Y, Verkade J G. Macromol . Symp. , 2005 , 224 : 105 —117
[68] Tang Z H , Chen X S , Liang Q Z , et al . J . Polym. Sci . Part A:Polym. Chem. , 2003 , 41 : 1934 —1941
[69] Finne A , Reema , Albertsson A C. J . Polym. Sci . Part A:Polym. Chem. , 2003 , 41 : 3074 —3082
[70] Barnea E , Moradove D , Eisen M S , et al . Organometallics ,2006 , 25 : 320 —322
[71] Schwach G, Coudane J , Engel R , et al . Polym. Bull . , 1996 ,37 : 771 —776
[72] 郜红建(Gao H J ) , 常江(Chang J ) , 张自立(Zhang Z L) 等.中国稀土学报(Journal of the Chinese Rare Earth Society) ,2003 , 21(5) : 487 —490
[73] 陶新( Tao X) , 汪以真(Wang Y Z) . 饲料研究( Feed Rearch) , 2001 , (9) : 17 —19
[74] 何明渊(He M Y) , 张建文(Zhang J W) , 张苏琼(Zhang S Q) 等. 甘肃畜牧兽医(Gansu Animal and Veterinary Sciences) ,1998 , 28(2) : 13 —15
[75] 刘茂玲(Liu M L) , 刘军(Liu J) , 张迎(Zhang Y) . 山东化工(Shandong Chemical Industry) , 2000 , 29(4) : 42 —43
[76] 纪云晶(Ji Y J) , 高星(Gao X) , 张俊卿(Zhang J Q) . 卫生毒理学杂质(Journal of Health Toxicology) , 1991 , 6 ( 4) :221 —223
[77] 张金超(Zhang J C) , 李晓新(Li X X) , 许善锦(Xu S J) . 自然科学进展( Progress in Natural Science ) , 2004 , 14 ( 4) :404 —409
[78] 秦俊法(Qin J F) , 陈祥友(Chen X Y) , 李增禧(Li Z X) .广东微量元素科学( Guangdong Trace Elements Science ) ,2002 , 9(3) : 1 —16
[79] 纪云晶(Ji Y J) , 栗建林(Li J L) , 王宗惠(Wang Z H) 等.职业与健康(Occupation and Health) , 2004 , 20(5) : 1 —7
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