English
往期目录
新闻公告
More
化学进展 2009, Vol. 21 Issue (6): 1287-1291 前一篇   后一篇

• 综述与评论 •

两步种子溶胀聚合研究进展*

雷金化1,2,王红华1,李栋梁1,2,周光远1**   

  1. (1. 中国科学院长春应用化学研究所   |长春 130022;2. 中国科学院研究生院   |北京 100049)
  • 收稿日期:2008-07-07 修回日期:2008-09-05 出版日期:2009-06-24 发布日期:2009-06-16
  • 通讯作者: 周光远 E-mail:gyzhou@ciac.jl.cn
下载PDF ( 3208 ) 引用
导出

Development of Two-Staged Seeded Swelling Polymerization

Lei Jinhua1,2; |Wang Honghua1; |Li Dongliang1,2;   |Zhou Guangyuan1**   

  1. (1.Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun 130022, China;2.Graduate University of Chinese Academy of Sciences, Beijing 100049, China)
  • Received:2008-07-07 Revised:2008-09-05 Online:2009-06-24 Published:2009-06-16
  • Contact: Zhou Guangyuan E-mail:gyzhou@ciac.jl.cn

由两步种子溶胀聚合法制备的聚合物微球尺寸均一可控,制备的多孔微球孔径、孔分布可控,被广泛应用于色谱柱填料、离子交换树脂、生物分离和催化剂载体等领域。本文介绍了两步种子溶胀聚合的聚合工艺;阐述了两步种子溶胀聚合的溶胀机理以及用该法制备多孔微球的致孔机理;进一步分析了影响两步种子溶胀聚合的各种因素:包括聚合过程的控制以及聚合配方的控制因素等;简要综述了通过该方法所制备的多孔聚合物微球,并对两步种子溶胀聚合方法今后的发展进行了展望。

关键词: 两步种子溶胀, 聚合工艺, 溶胀机理, 致孔机理

Monodisperse micron-sized polymeric particles can be achieved by two-staged seeded polymerization(also known as the activated swelling polymerization). Because of the controllable particles size, pore size and pore size distribution, particles synthesized by this method are widely used as chromatographic supports, ion exchangers, size exclusion chromatography, biological separation, catalytic supports, etc. This paper introduces polymerization process of two-staged seeded swelling polymerization, mechanism of two-staged swelling and pore formation. Then we give a detailed analysis on the impact of two-step seeded swelling polymerization, including control of polymerization process and effect of each component in two-staged seeded swelling polymerization. Preparation of porous polymer microspheres by this method is summarized likewise. Finally, the future trend of two-step seed swelling polymerization is discussed.

Contents
1 Introduction
2 Process of two-staged seeded swelling polymerization
3 Mechanism of two-staged seeded swelling polymerization
3.1 Mechanism of seeded swelling
3.2 Mechanism of pore formation
4 Control of two-staged seeded swelling polymerization
4.1 Control of polymerization process
4.2 Effect of recipe of two-staged seeded polymerization on obtained particles
5 Application of two-staged seeded swelling polymerization
6 Outlook and summary

Key words: two-staged seeded swelling, polymerization process, swelling mechanism, pore formation mechanism

中图分类号: 

()

[ 1 ]  Bilici Z, Camli S T, Unsal E , Tuncel A. Anal . Chim. Acta , 2004 ,516 : 125 —133
[ 2 ]  Caglayan B , Unsal E , Camli S T, Tuncel M, Tuncel A. J . Sep.Sci . , 2006 , 29 : 936 —944
[ 3 ]  Unsal E , Camli S T, Irmak T, Tuncel M, Tuncel A.Chromatographia , 2004 , 60 : 553 —560
[ 4 ]  Unsal E , Camli S T, Tuncel M, Senel S , Tuncel A. React Funct .Polym. , 2004 , 61 : 353 —368
[ 5 ]  Unsal E , Elmas B , Camli S T, Tuncel M, Senel S , Tuncel A. J .Appl . Polym. Sci . , 2005 , 95 : 1430 —1438
[ 6 ]  Coutinho F M B , Carvalho D L , Aponte M L L , Barbosa C C R.Polymer , 2001 , 42 : 43 —48
[ 7 ]  Gong B L , Li L , Zhu J X, Qiang KJ , Ren L. J . Sep. Sci . , 2005 ,28 : 2546 —2550
[ 8 ]  Gong B L , Li L , Zhu J X. Anal . Bioanal . Chem. , 2005 , 382 :1590 —1594
[ 9 ]  Gong B L , Wang C , Wang L , Geng X D. Chin. J . Anal . Chem. ,2004 , 32 : 565 —568
[10 ]  Gong B L , Ke C Y, Geng XD. Chin. J . Chem. , 2004 , 22 : 283 —289
[11 ]  Coutinho F MB , Rezende SM, Soares B G. J . Appl . Polym. Sci . ,2006 , 102 : 3616 —3627
[12 ]  马光辉(Ma G H) , 苏志国( Su Z G) . 高分子微球材料(Polymeric Microspheres Material ) . 北京: 化学工业出版社(Beijin: Chemical Industry Press) , 2005. 63 —68
[13 ]  Thomson B , Rudin A , Lajoie G. J . Appl . Polym. Sci . , 1996 , 59 :2009 —2028
[14 ]  Song J S , Chagal L , Winnik M A. Macromolecules , 2006 , 39 :5729 —5737
[15 ]  Song J S , Winnik M A. Macromolecules , 2005 , 38 , 8300 —8307
[16 ]  Ugelstad J , Kaggerud K H , Hansen F K, Berge A. Makromol .Chem. , 1979 , 180 : 737 —744
[17 ]  Ugelstad J , Berge A , Ellingsen T, Schmid R , Nilsen T N , Mork P C , Stenstad P , Hornes E , Olsvik O. Prog. Polym. Sci . , 1992 , 17 :87 —161
[18 ]  Ugelstad J , Mork P C , Schmid R , Ellingsen T, Berge A. Polym.Int . , 1993 , 30 : 157 —168
[19 ]  Cheng C M, Vanderhoff J W, El-Aasser M S. J . Polym. Sci . Pol .Chem. , 1992 , 30 : 245 —256
[20 ]  Tuncel A , Tuncel M, Salih B. J . Appl . Polym. Sci . , 1999 , 71 :2271 —2290
[21 ]  Wang Q C , ˇSvec F , Fréchet J MJ . J . Polym. Sci . Polym. Chem. ,1994 , 32 : 2577 —2588
[22 ]  Lee D H , KimJ W, Suh KD. J . Mater. Sci . , 2000 , 35 : 6181 —6188
[23 ]  Unsal E , Camli S T, Senel S , Tuncel A. J . Appl . Polym. Sci . ,2004 , 92 : 607 —618
[24 ]  Tuncel A. J . Appl . Polym. Sci . , 1999 , 71 : 2291 —2302
[25 ]  Luz C T L , Coutinho F M B. J . Appl . Polym. Sci . , 2004 , 91 :666 —669
[26 ]  Luz C TL , Coutinho F MB. Polymer , 2001 , 42 : 4931 —4938
[27 ]  Luz C TL , Coutinho FMB. Eur. Polym. J . , 2000 , 36 : 547 —553
[28 ]  KimJ W, Ryu J H , Suh K D. Colloid Polym. Sci . , 2001 , 279 :146 —152
[29 ]  Kim J W, Park J G, Ryu J H , Chang I S , Suh KD. Colloid Polym.Sci . , 2005 , 283 : 1233 —1240
[30 ]  NamJ B , Ryu J H , Kim J W, Chang I S , Suh K D. Polymer ,2005 , 46 : 8956 —8963
[31 ]  Tuncel A , Tuncel M, Ergun B , Alagoz C , Bahar T. Colloid Surf .A-Physicochem. Eng. Asp. , 2002 , 197 : 79 —94
[32 ]  Cho S H , Ryu J H , Park J G, Suh K D. Eur. Polym. J . , 2005 ,41 : 2209 —2215
[33 ]  Senel S , Camli S T, Tuncel M, Tuncel A. J . Chromatogr. B ,2002 , 769 : 283 —295
[34 ]  Kim K S , Lee J H , Kim M H , Cho S H. Polym. J . , 2005 , 37 :669 —676
[35 ]  Ferreira A , Bigan M, Blondeau D. React . Funct . Polym. , 2003 ,56 : 123 —136
[36 ]  Park J G, Kim J W, Suh K D. Colloid Polym. Sci . , 2001 , 279 :638 —645
[1] 尤树森, 杨万泰, 尹梅贞* . 刺激响应型功能聚合物的合成及应用[J]. 化学进展, 2012, 24(11): 2198-2211.
[2] 袁伟忠, 张锦春, 魏静仁. 点击化学与活性自由基聚合联用构建特殊结构聚合物[J]. 化学进展, 2011, 23(4): 760-771.
[3] 周莅霖 袁金颖 蔡志楠 洪啸吟. 活性开环聚合与可控自由基聚合机理转换合成精细结构共聚物*[J]. 化学进展, 2010, 22(09): 1799-1807.
[4] 钱涛 汪涓涓 张庆华 詹晓力 陈丰秋. 原子转移自由基细乳液聚合*[J]. 化学进展, 2010, 22(04): 663-668.
[5] 张怀平,陈鸣才. 超临界二氧化碳中的聚合反应*[J]. 化学进展, 2009, 21(09): 1869-1879.
[6] 闫强,袁金颖,康燕,袁伟忠. 连接子化学在聚合物-缀合物中的应用*[J]. 化学进展, 2008, 20(12): 1972-1979.
[7] 罗玉芬,汪朝阳,宋秀美,毛郑州. 星形聚乳酸*[J]. 化学进展, 2008, 20(10): 1578-1587.
[8] 蒋波,易玲敏,詹晓力,陈碧,陈丰秋. 新型链转移剂黄原酸酯调控的RAFT自由基聚合*[J]. 化学进展, 2008, 20(0708): 1128-1135.
[9] 隋晓锋,袁金颖,袁伟忠,周密. 无机纳米材料表面引发自由基可控聚合反应*[J]. 化学进展, 2008, 20(0708): 1122-1127.
[10] 田杰生,王金泉,杜亚,何良年. 二氧化碳与环氧化物的共聚反应*[J]. 化学进展, 2006, 18(01): 74-79.
[11] 倪刚,杨武,何晓燕,薄丽丽,吕维莲. 表面引发聚合反应研究进展*[J]. 化学进展, 2005, 17(06): 1074-1080.
[12] 唐新德,范星河,陈小芳,周其凤. 原子转移自由基聚合( ATRP) 在星形聚合物合成中的应用*[J]. 化学进展, 2005, 17(06): 1089-1095.
[13] 肖林飞,李福伟,夏春谷. 二氧化碳与环氧化合物直接制备聚碳酸酯*[J]. 化学进展, 2005, 17(04): 706-715.
[14] 易玲敏,詹晓力,陈丰秋. (甲基)丙烯酸氟烷基酯的“活性”/可控聚合*[J]. 化学进展, 2004, 16(06): 954-.
[15] 周峰,刘维民. 无机物表面引发聚合反应制备端接枝聚合物膜*[J]. 化学进展, 2002, 14(02): 141-.
阅读次数
全文


摘要

两步种子溶胀聚合研究进展*