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化学进展 2009, Vol. 21 Issue (12): 2660-2673 前一篇   后一篇

• 综述与评论 •

刚柔嵌段共轭聚合物自组装体系*

李迪;张龙;范曲立**;黄维**   

  1. (江苏省有机电子与信息显示重点实验室南京邮电大学信息材料与纳米技术研究院    南京 210046)
  • 收稿日期:2008-12-24 修回日期:2009-03-09 出版日期:2009-12-24 发布日期:2009-12-01
  • 通讯作者: 范曲立;黄维 E-mail:iamqlfan@njupt.edu.cn;wei-huang@njupt.edu.cn
  • 基金资助:

    国家自然科学基金

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Self-Assembly of Conjugated Rod-Coil Block Copolymers

Li Di; Zhang Long;  Fan Quli**; Huang Wei**   

  1. (Jiangsu Key Laboratory for Organic Electronics & Information Displays and Institute of Advanced Materials, Nanjing University of Posts and Telecommunications, Nanjing 210046, China)
  • Received:2008-12-24 Revised:2009-03-09 Online:2009-12-24 Published:2009-12-01
  • Contact: Fan Quli;Huang Wei E-mail:iamqlfan@njupt.edu.cn;wei-huang@njupt.edu.cn
  • Supported by:

    National Natural Science Foundation of China

刚柔嵌段共轭聚合物的自组装是超分子化学研究的热点之一。本文综述了近年来刚柔嵌段共轭聚合物自组装体系研究进展。根据共轭刚性段的不同分类进行阐述,综述了聚芴,二(苯乙烯)-蒽,聚对苯撑,聚对苯乙烯撑,聚对苯撑乙炔,聚(2,5-苯甲酮),聚噻吩,聚苯基喹啉等作为刚性链段的刚柔嵌段共轭聚合物自组装体系,介绍了刚柔嵌段共轭聚合物的合成和光物理性质;重点评述了刚柔嵌段共轭聚合物在不同溶剂、浓度、温度等条件下自组装形成一维、二维以及三维的周期性微结构,且具有方便的可控性。概括了刚柔嵌段共轭聚合物自组装体系广阔的应用前景,尤其在光电器件领域有着潜在的应用价值。最后展望了刚柔嵌段共轭聚合物自组装体系研究和发展的方向。

关键词: 刚柔嵌段共聚物, 共轭聚合物, 自组装

The self-assembly of conjugated rod-coil block copolymers has recently become one of the hot topics in the research of supramolecular chemistry. This article reviews the program on the self-assembly of conjugated rod-coil block copolymers with different rod blocks, including polyfluorene, polydi(styryl)-anthracene, poly(para-phenylene), poly(para-phenyleneethynylene), poly(para-phenylenevinylene), poly(2,5-benzophenone), polythiophene, poly(phenylquinoline), etc. The syntheses and photophysical properties of conjugated rod-coil block copolymers are introduced. The formation and regulation of well-defined one-, two-, or three-dimensional conjugated domains in nanoscale dimensions by the self-assembly of these copolymers in different solvents, temperature and concentration are reviewed emphatically. The potential applications of the self-assembly of conjugated rod-coil block copolymers in many fields, particularly in optoelectronic device, are summarized. Finally, the prospects for the self-assembly of conjugated rod-coil block copolymers are stated.

Contents
1 Introduction
2 The system of conjugated rod-coil block copolymers
2.1 Fluorene-based conjugated rod-coil block copolymers
2.2 Di(styryl)-anthracene-based conjugated rod-coil block copolymers
2.3 Poly(para-phenylene) or Oligo(para-phenylene) -based conjugated rod-coil block copolymers
2.4 Poly(para-phenyleneethynylene) or Oligo(para-phenyleneethynylene) -based conjugated rod-coil block copolymers
2.5 Poly(para-phenylenevinylene) or Oligo(para-phenylenevinylene) -based conjugated rod-coil block copolymers
2.6 Poly(2,5-benzophenone) -based conjugated rod-coil block copolymers
2.7 Polythiophene-based conjugated rod-coil block copolymers
2.8 Poly(phenylquinoline) -based conjugated rod-coil block copolymers
2.9 Others
3 Conclusion

Key words: rod-coil block copolymers, conjugated polymers, self-assembly

中图分类号: 

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[ 1 ]  Perly B , Douy A , Gallot B. Makromol . Chem. , 1976 , 177 : 2569 —2589
[ 2 ]  Chen J T, Thomas EL , Mao G, et al . Science , 1996 , 273 : 343 — 346
[ 3 ]  Muthukumar M, Ober C K, Thomas E L. Science , 1997 , 277 : 1225 —1232
[ 4 ]  Stupp S I , LeBonheur V , Walker K, et al . Science , 1997 , 276 : 384 —389
[ 5 ]  Jeneckhe S A , Chen XL. Science , 1998 , 279 : 1903 —1907
[ 6 ]  Cornelisson J J L M, Fischer M, Nolte R J M, et al . Science , 1998 , 280 : 1427 —1430
[ 7 ]  Papkov S P. Adv. Polym. Sci . , 1984 , 59 : 75 —82
[ 8 ]  Williams D R M, Fredrickson G H. Macromolecules , 1992 , 25 : 3561 —3568
[ 9 ]  Mason TL , Tirrel D A. Nature , 1997 , 389 : 167 —170
[10 ]  Lee M, Cho B K, Zin WC. Chem. Rev. , 2001 , 101 : 3869 —3892
[11 ]  Kong X, Jenekhe S A. Macromolecules , 2004 , 37 : 8180 —8183
[12 ]  Surin M, Marsitzky D , Leclère P , et al . Adv. Funct . Mater. , 2004 , 14 : 708 —715
[13 ]  Chochos C L , Tsolakis P K, Kallitsis J K, et al . Macromolecules , 2004 , 37 : 2502 —2510
[14 ]  Tsolakis P K, Kallitsis J K. Chem. Eur. J . , 2003 , 4 : 936 —943
[15 ]  Chochos C L , Kallitsis J K, Gregoriou V G, et al . J . Phys. Chem. B , 2006 , 110 : 4657 —4662
[16 ]  Chochos C L , Tzanetos N P , Kallitsis J K, et al . European Polymer Journal ,2007 , 43 : 5065 —5075
[17 ]  Chochos C L , Kallitsis J K, Gregoriou V G. J . Phys. Chem. B , 2005 , 109 : 8755 —8760
[18 ]  Tung Y C , Wu W C , Chen W C. Macromol . Rapid Commun. , 2006 , 27 : 1838 —1844
[19 ]  Xiao X, Fu YQ , Li L , et al . Macromol . Rapid Commun. , 2007 , 28 : 1003 —1009
[20 ]  Yu X F , Lu S , Huang W, et al . Macromolecules , 2006 , 39 : 1364 —1375
[21 ]  Marsitzky D , Klapper M, Müllen K. Macromolecules , 1999 , 32 : 8685 —8688
[22 ]  Lu S , Fan Q L , Huang W, et al . Macromolecules , 2003 , 36 : 304 —310
[23 ]  Lu S , Fan Q L , Huang W, et al Macromolecules , 2002 , 35 : 9875 —9881
[24 ]  Lu S , Liu T X, Huang W, et al . Macromolecules , 2005 , 38 : 8494 —8502
[25 ]  Qiang L L , Ma Z, Huang W, et al . Macromol . Rapid Commun. , 2006 , 27 : 1779 —1786
[26 ]  Ma Z, Qiang L L , Huang W, et al . Journal of Applied Polymer Science , 2008 , 110 : 18 —22
[27 ]  Zhang ZJ , Qiang L L , Wei W, et al . Materials Letters , 2006 , 60 : 679 —684
[28 ]  Kim HJ , Kim H S , Kwon Y K. Macromolecular Research , 2005 , 13 (6) : 529 —532
[29 ]  Wu W C , Tian Y Q , Jen A K Y, et al . Langmuir , 2007 , 23 : 2805 —2814
[30 ]  Yao J H , Mya K Y, Loh K P , et al . Macromolecules , 2008 , 41 : 1438 —1443
[31 ]  Tzanetos N P , Kallitsis J K. Chem. Mater. , 2004 , 16 : 2648 —2655
[32 ]  Tzanetos N P , Dracopoulos V , Deimede V A. Langmuir , 2005 , 21 : 9339 —9345
[33 ]  Tzanetos N P , Kallitsis J K. Journal of Polymer Science Part A: Polymer Chemistry , 2005 , 43 : 1049 —1061
[34 ]  Ryu J H , Jang C J , Lee M, et al . J . Org. Chem. , 2005 , 70 : 8956 —8962
[35 ]  Lee M, Jang C J , Ryu J H. J . Am. Chem. Soc. , 2004 , 126 : 8082 —8083
[36 ]  Ryu J H , Lee M. J . Am. Chem. Soc. , 2005 , 127 : 14170 —14171
[37 ]  Kim B S , Hong D J , Lee M,et al . J . Am. Chem. Soc. , 2005 , 127 : 16333 —16337
[38 ]  Park M H , Ryu J H , Lee M, et al . Macromol . Rapid Commun. , 2006 , 27 : 1684 —1688
[39 ]  Lee M, Park M H , Oh N K, et al . Angew. Chem. Int . Ed. , 2004 , 43 : 6466 —6468
[40 ]  Yoon D K, Park M H , Jung H T. Current Applied Physics , 2008 , 8 : 651 —655
[41 ]  Tsolakis P K, Koulouri E G, Kallitsis J K. Macromolecules , 1999 , 32 : 9054 —9058
[42 ]  Tsolakis P K, Kallitsis J K, Tsitsilianis C. Journal of Macromolecular Science2Pure and Applied Chemistry , 2002 , 39 (3) : 155 —169
[43 ]  Leclère P , Calderone A , Lazzaroni R ,et al . Adv. Mater. , 2000 , 12 : 1042 —1046
[44 ]  Qu G, Jiang F S , Zhang S Y,et al . Materials Letters , 2007 , 61 : 3421 —3424
[45 ]  屈刚(Qu G) , 姜复松(Jiang F S) , 张姝妍(Zhang S Y) . 高分子学报(Acta Polymerica Sinice) , 2007 , 6 : 541 —547
[46 ]  Stalmach U , Boer B , Hadziioannou G, et al . J . Am. Chem. Soc. , 2000 , 122 : 5464 —5472
[47 ]  Veen M H , Boer B , Stalmach U , et al . Macromolecules , 2004 , 37 : 3673 —3684
[48 ]  Olsen B D , Segalman R A. Macromolecules , 2005 , 38 : 10127 —10137
[49 ]  Olsen B D , Segalman R A. Macromolecules , 2006 , 39 : 7078 —7083
[50 ]  Olsen B D , Li X, Segalman R A , et al . Macromolecules , 2007 , 40 : 3287 —3295
[51 ]  Tao Y F , Olsen B D , Segalman R A , et al . Macromolecules , 2007 , 40 : 3320 —3327
[52 ]  Tao Y F , Zohar H , Segalman R A , et al . Nano Lett . , 2007 , 7 : 2742 —2746
[53 ]  Boer B , Stalmach U , Hadziioannou G, et al . Adv. Mater. , 2000 , 12 : 1581 —1583
[54 ]  Heiser T, Adamopoulos G, Brinkmann M, et al . Thin Solid Films , 2006 , 511P512 : 219 —223
[55 ]  Wang H B , Wang H H , Yu L P , et al . J . Am. Chem. Soc. , 2000 , 122 : 6855 —6861
[56 ]  Li H B , Liu Q T, Wu L X, et al . J . Phys. Chem. B , 2005 , 109 : 2855 —2861
[57 ]  Li H B , Song B , Wu L X, et al . Journal of Colloid and Interface Science , 2005 , 290 : 557 —563
[58 ]  Li H B , Liu Q T, Wu L X, et al . Journal of Colloid and Interface Science , 2005 , 289 : 488 —497
[59 ]  Tsolakis P K, Kallitsis J K, Godt A. Macromolecules , 2002 , 35 : 5758 —5762
[60 ]  Xu K, Wang Y, Bai R , et al . Polymer , 2005 , 46 : 7572 —7577
[61 ]  Li K, Guo L , Liang Z Q , et al . Journal of Polymer Science Part A: Polymer Chemistry , 2005 , 43 : 6007 —6019
[62 ]  Huo H , Li K, Wu C. Macromolecules , 2007 , 40 : 6692 —6698
[63 ]  Hagberg E C , Goodridge B , Sheares V V , et al . Macromolecules , 2004 , 37 : 3642 —3650
[64 ]  Economopoulos S P , Chochos C L , Kallitsis J K, et al . Macromolecules , 2007 , 40 : 921 —927
[65 ]  Chen X W, Gholamkhass B , Holdcroft S , et al . Macromol . Rapid Commun. , 2007 , 28 : 1792 —1797
[66 ]  Boudouris B W, Frisbie C D , Hillmyer M A. Macromolecules , 2008 , 41 : 67 —75
[67 ]  Richard F , Brochon C , Hadziioannou G, et al . Macromol . Rapid Commun. , 2008 , 29 : 885 —891
[68 ]  Lin C L , Tung P H , Chang F C. Polymer , 2005 , 46 : 9304 —9313
[69 ]  Chen XL , Jenekhe S A. Langmuir , 1999 , 15 : 8007 —8017
[70 ]  Jenekhe S A , Chen XL. Science , 1999 , 283 : 372 —375
[71 ]  Chen XL , Jenekhe S A. Macromolecules , 2000 , 33 : 4610 —4612
[72 ]  Lin H C , Lee KW, Tsai C M, et al . Macromolecules , 2006 , 39 : 3808 —3816
[73 ]  Yanga G Z, Chen X L , Liu T X, et al . Polym. Adv. Technol . , 2009 , 20 : 104 —110
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