English
往期目录
新闻公告
More
化学进展 2009, Vol. 21 Issue (12): 2515-2524 前一篇   后一篇

• 综述与评论 •

基于环糊精和冠醚偶联体系的新型超分子主体模型

孙涛;申健;孙宏元;郝爱友*   

  1. (山东大学化学与化工学院  济南 250100)
  • 收稿日期:2008-12-15 修回日期:2009-01-09 出版日期:2009-12-24 发布日期:2009-12-01
  • 通讯作者: 郝爱友 E-mail:haoay@sdu.edu.cn
  • 基金资助:

下载PDF ( 1583 ) 引用
导出 被引次数 ( 12 | 1 )

A Novel Model of Host Molecule in Supramolecular Based on Cyclodextrin-Crownether Coupling System

Sun Tao;  Shen Jian; Sun Hongyuan; Hao Aiyou*   

  1. (School of Chemistry and Chemical Engineering, Shandong University, Jinan 250100, China)
  • Received:2008-12-15 Revised:2009-01-09 Online:2009-12-24 Published:2009-12-01
  • Contact: Hao Aiyou E-mail:haoay@sdu.edu.cn

超分子化学是当今化学界的前沿学科之一,超分子主体化合物的选择性合成是其一个重要的方面。环糊精与冠醚同为超分子化学中应用广泛的主体分子,各有自己独特的特点及不足,而将二者偶联起来,可得到拥有两个甚至多个识别位点的化合物,通过协同作用可在分子识别、模拟酶、色谱等方面的应用范围,并有较好的的效果。本文综述了近年来环糊精与冠醚偶联体系的研究进展:首先介绍了不同种类的环糊精与冠醚偶联体系的合成,包括合成思路、步骤以及方法;然后着重叙述了此体系的应用研究进展,包括其在分子识别、模拟酶、异构体分离以及光能量传导等领域;最后指出目前研究工作仍然存在的不足,并对其前景进行了展望。

关键词: 环糊精, 冠醚, 偶联体系, 模拟酶, 分子识别, 色谱

Supramolecule chemistry is an advanced research topic in current chemistry, and the selective synthesis of the host compound is an important aspect. Cyclodextrins and crownethers, which have their own special characters and disadvantages, are both widely used in supramolecular chemistry. The cyclodextrin-crownether coupling system which has two or more recognition sites will expand their applications greatly in the area of molecular recognition , enzyme mimic, chromatography, etc. through synergistic effection with fine results. Here, the recent development of cyclodextrin-crownether coupling system is reviewed. Firstly, the synthesis of different kinds of cyclodextrin-crownether coupling systems is introduced, including the synthesis clues, approaches and methods. Then, the application of the system is emphatically described, including in the field of molecule recognition, mimetic enzyme, isolation of isomers and energy transfer of light. At last, the disadvantages in recent study and prospects are pointed out.

Contents
1 Synthesis of cyclodextrin-crownether coupling system
1.1 Synthesis of simple cyclodextrin-crownether coupling system
1.2 Synthesis of cyclodextrin-crownether coupling system including π-system
1.3 Synthesis of cyclodextrin-crownether coupling system attached to silica gel
1.4 Synthesis of cyclodextrin-crownether-calixarene coupling system
1.5 Synthesis of cyclodextrin-analogue of crownether coupling system
2 Characters and applications of cyclodextrin-crownether coupling system
2.1 Applications of cyclodextrin-crownether coupling system in molecular recognition
2.2 Applications of cyclodextrin-crownether coupling system in enzyme mimics
2.3 Applications of cyclodextrin-crownether coupling system in seperation of isomers
2.4 Applications of cyclodextrin-crownether coupling system in energy transfer of light
3 Prospects

Key words: cyclodextrin, crownether, coupling system, enzyme mimics, molecular recognition, chromatography

中图分类号: 

()

[ 1 ]  刘育(Liu Y) , 李莉(Li L) . 有机化学(Chin. J . Org. Chem. ) , 2001 , 21 (11) : 850 —861
[ 2 ]  童林荟( Tong L H) . 环糊精化学2基础与应用( Cyclodextrin Chemistry2Foundation and Application ) . 北京: 科学出版社(Beijing : Science Press) , 2001. 10 —20
[ 3 ]  Bender M L , Komiyama M. Cyclodextrin Chemistry , New York : Springer2Verlag , 1978
[ 4 ]  Szejtli J . Cyclodextrin Technology , Dordrecht : Kluwar Academic Publishers , 1988
[ 5 ]  Szejtli J . Chem. Rev. , 1998 , 98 : 1743 —1754
[ 6 ]  Saenger W. Angew. Chem. Int . Ed. Engl . , 1980 , 19 : 344 —362
[ 7 ]  Pedersen C J . J . Am. Soc. , 1967 , 89 : 2495 —2496
[ 8 ]  吴成泰(Wu C T) . 冠醚化学(Crown Chemistry) . 北京: 科学出版社(Beijing : Science Press) , 1992. 1 —8
[ 9 ]  吴成泰(Wu C T) , 何永炳(He YB) , 付恩琴(Fu E Q) . 有机化学(Chin. J . Org. Chem. ) , 2001 , 21 (11) : 914 —922
[10 ]  陈玉婷(Chen YT) , 徐辉(Xu H) , 窦建民(Dou J M) 等. 化学进展(Progress in Chemistry) , 2008 , 20 (11) : 1666 —1674
[11 ]  张华承(Zhang H C) , 郝爱友(Hao A Y) , 申健(Shen J ) . 有机化学(Chin. J . Org. Chem. ) , 2008 , 28 (6) : 954 —963
[12 ]  Takahashi K. Chem. Rev. , 1998 , 98 : 2013 —2034
[13 ]  孙宏元(Sun H Y) , 郝爱友(Hao A Y) , 尹明静( Yin MJ ) 等. 化学进展(Progress in Chemistry) , 2008 , 20 (11) : 1694 —1698
[14 ]  Willner I , Goren ZJ . Chem. Comm. , 1983 , 24 : 1469 —1470
[15 ]  Pikramenou Z, Nocera D G. Inorg. Chem. , 1992 , 31 (4) : 532 — 536
[16 ]  Park J W, Lee S Y, Park K K. Chem. Lett . , 2000 , 594 —595
[17 ]  Park K K, Kim Y S , Jung H K, et al . Bull . Korean Chem. Soc. , 2000 , 21 (11) : 1119 —1124
[18 ]  Liu Y, Chen Y, Kang S Z, et al . J . Incl . Phenom. Macro. , 2003 , 47 : 91 —95
[19 ]  Liu Y, Kang S Z, Diao C H. Chin. Chem. Lett . , 2001 , 12 (11) : 891 —892
[20 ]  Liu Y, Yang Y W, Li L , et al . Org. Biomol . Chem. , 2004 , 21542 —21548
[21 ]  Liu Y, Duan Z Y, Chen Y, et al . Org. Biomol . Chem. , 2004 , 2 : 2359 —2364
[22 ]  Jung J H , Lee H Y, Jung S H , et al . Tetrahedron , 2008 , 64 : 6705 —6710
[23 ]  Jung J H , Lee S J , KimJ S , et al . Org. Lett . , 2006 , 8 : 3009 — 3012
[24 ]  Suzuki I , Ito M, Osa T, et al . Chem. Pharm. Bull . , 1999 , 47 (11) : 151 —155
[25 ]  Suzuki I , Obata K, Anzal J , et al . J . Chem. Soc. Perkin Trans. , 2000 , 2 : 1705 —1710
[26 ]  Zeng Z R , Liu M. Chromatographia , 1998 , 48 : 817 —822
[27 ]  宫守凤(Gong S F) , 何新亚(He X Y) , 林炳承(Lin B C) . 化学进展(Progress in Chemistry) , 2001 , 13 (6) : 450 —454
[28 ]  Armstrong D W, Chang L W, Chang S S. J . Chromatogr. A. , 1998 , 793 : 115 —134
[29 ]  Schurig V , Wistuba D. Electophoresis , 1999 , 20 , 2313 —2328
[30 ]  Leliere F , Yan C , Zare R N , et al . Chromatogr. A , 1996 , 723 : 145 —146
[31 ]  Li S , Lloyd D K. Anal . Chem. , 1993 , 65 : 3684 —3690
[32 ]  Gong Y, Lee H K. Helvetica. Chemica. Acta , 2002 , 85 : 3283 — 3293
[33 ]  Gong Y, Xue G, Bradshaw J S , et al . Heterocycl . Chem. , 2001 , 38 : 1317 —1321
[34 ]  Gong Y, Xiang Y, Yue B J , et al . J . Chromatogr. A , 2003 , 1002 : 63 —70
[35 ]  Jankowski C K, Arseneau S , Blu J , et al . Can. J . Chem. , 2005 ,
[36 ]  Jankowski C K, Allain F , Dozol J F , et al . Rapid. Commun. Mass. Spectrom. , 2003 , 17 : 1247 —1255
[37 ]  Jankowski C K, Calsteren M R , Aychet N , et al . Can. J . Chem. , 2005 , 83 : 1098 —1113
[38 ]  Hocquelet C , Jankowski C K, Mauclaire L. Tetrahedron , 2007 , 63 : 10834 —10839
[39 ]  Hocquelet C , Blu J , Jankowski C K, et al . Tetrahedron , 2006 , 62 : 11963 —11971
[40 ]  Liu Y, Han B H , Li B , et al . J . Org. Chem. , 1998 , 63 : 1444 — 1454
[41 ]  Corradini R , Buccella G, Galaverna G, et al . Tetrahedron Lett . , 1999 , 40 : 3025 —3028
[42 ]  童林荟(Tong L H) . 化学进展( Progress in Chemistry) , 1990 , 2 (1) : 71 —86
[1] 汤波, 王微, 罗爱芹. 新型多孔材料用作色谱手性固定相[J]. 化学进展, 2022, 34(2): 328-341.
[2] 赵自通, 张真真, 梁志宏. 催化水解反应的肽基模拟酶的活性来源、催化机理及应用[J]. 化学进展, 2022, 34(11): 2386-2404.
[3] 李霞, 马红艳, 聂晓娟, 刘旭, 卞成明, 谢龙. 星形环糊精聚合物的制备及其应用[J]. 化学进展, 2020, 32(7): 935-942.
[4] 侯晨, 陈文强, 付琳慧, 张素风, 梁辰. 共价有机框架材料在固定化酶及模拟酶领域的应用[J]. 化学进展, 2020, 32(7): 895-905.
[5] 张丹维, 王辉, 黎占亭. 芳香大分子和超分子螺旋管构筑及其功能[J]. 化学进展, 2020, 32(11): 1665-1679.
[6] 王慧娟, 刘育. 磺化冠醚的分子键合与组装[J]. 化学进展, 2020, 32(11): 1651-1664.
[7] 马明放, 栾天翔, 邢鹏遥, 李兆楼, 初晓晓, 郝爱友. 基于β-环糊精的有机小分子凝胶[J]. 化学进展, 2019, 31(2/3): 225-235.
[8] 许颖, 高婷婷, 王启晓, 屈阳, 刘宏飞, 辛渊蓉. 高分子类型MONOLITH材料的制备技术及其作为亲和色谱固定相用于分离生物大分子的应用[J]. 化学进展, 2018, 30(8): 1112-1120.
[9] 王继乾*, 闫宏宇, 李洁, 张丽艳, 赵玉荣, 徐海*. 基于多肽自组装的人工金属酶[J]. 化学进展, 2018, 30(8): 1121-1132.
[10] 闫吉军, 康传清*, 高连勋. 阴离子-萘四酸双酰亚胺相互作用及其应用[J]. 化学进展, 2018, 30(7): 902-912.
[11] 王梅祥*. 新型大环超分子化学:从杂杯芳烃到冠芳烃——纪念黄志镗先生诞辰90周年[J]. 化学进展, 2018, 30(5): 463-475.
[12] 赵倩, 李盛华, 刘育*. 环糊精超分子凝胶的构筑及其功能[J]. 化学进展, 2018, 30(5): 673-683.
[13] 喻娜, 丁慧敏, 汪成. 有机分子笼的合成及应用[J]. 化学进展, 2016, 28(12): 1721-1731.
[14] 赵亚男, 王梦凡, 齐崴, 苏荣欣, 何志敏. 基于肽组装凝胶的超分子模拟酶[J]. 化学进展, 2016, 28(11): 1664-1671.
[15] 韩勰, 胡芳, 葛豪杰, 刘盛华, 尹军. 模板导向的亚胺型夹套法在构筑N-杂冠醚类机械互锁分子中的应用[J]. 化学进展, 2015, 27(6): 675-686.