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化学进展 2010, Vol. 22 Issue (0203): 427-432 前一篇   后一篇

• 综述与评论 •

杯芳烃稀土配合物的光性能及应用*

王延梅;王丽**   

  1. (同济大学化学系 上海 200092)
  • 收稿日期:2009-04-01 修回日期:2009-05-06 出版日期:2010-03-24 发布日期:2010-03-18
  • 通讯作者: 王丽 E-mail:wangli@tongji.edu.cn
  • 基金资助:

    若干神经毒性金属与tau蛋白微管结合域的配位及其对构象的诱变作用

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Application and Luminescent Properties of the Complexes of Lanthanide Ions Based on Calixarene Derivatives

Wang Yanmei; Wang Li**   

  1. (Department of Chemistry, Tongji University, Shanghai 200092, China)
  • Received:2009-04-01 Revised:2009-05-06 Online:2010-03-24 Published:2010-03-18
  • Contact: Wang li E-mail:wangli@tongji.edu.cn

杯芳烃作为继环糊精和冠醚之后的大环化合物,以其特有的结构特点和易化学修饰性而成为新一代人工受体的代表,其典型的超分子特性成为近年来研究的热点。在杯芳烃中引入羧基、吡啶、羰基等能与稀土离子配位的官能团,利用杯芳烃骨架苯环的π→π*吸收或所引入官能团的紫外吸收对稀土离子的能量传递,可使配合物表现出独特的发光性质。基于上述原因,杯芳烃稀土离子配合物发光性质的研究及应用备受人们的重视和青睐。本文从荧光传感器、分子开关、发光材料三个应用方面综述了近几年有关杯芳烃稀土离子配合物的研究工作。

关键词: 杯芳烃, 稀土配合物, 光性能, 荧光传感器, 分子开关, 发光材料

Calixarenes, the macrocyclic compounds derived from the condensation of p-substituted phenol and formaldehyde, represent a new type of receptor after cyclodextrins and crown ethers due to their structure peculiarity and the feasibility to modify. Now calixarenes become the hot topic in supramolecular chemistry research. The complexes of calixarene derivatives and lanthanide ions demonstrate particular luminescent properties because of the energy transfer between the derivatives and metal ions. So lanthanide ion complexes based on calixarene derivatives have attracted considerable attentions. This paper reviewed the research progress on luminescent properties of lanthanide ion complexes based on calixarene derivatives and their applications in fluorescent sensors, molecular switches and luminescent materials.

Contents
1 Introduction
2 Luminescent properties of lanthanide ion complexes based on calixarene derivatives
2.1 Fluorescent sensors
2.2 Molecular switches
2.3 Luminescent materials
3 Conclusion

Key words: calixarene, lanthanide complexes, luminescent properties, fluorescence sensors, molecular switches, luminescent materials

中图分类号: 

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[ 1 ]  苏文斌( Su W B) , 谷学新(Gu X X) , 邹洪( Zou H) 等. 化学研究(Chemical Research) , 2001, 12 (4) : 55—59
[ 2 ]  孙家跃( Sun J Y) , 肖昂(Xiao A) , 杜海燕(Du H Y) 等. 北京工商大学学报(自然科学版) ( Journal of Beijing Technology and Business University (Natural Science Edition ) ) , 2002, 20 (4) : 5—10
[ 3 ]  韦早春(Wei Z C) . 广西物理( GuangXi Physics) , 2003, 24 (4) : 43—44
[ 4 ]  徐长远(Xu C Y) , 王永生(Wang Y S) , 黄最明(Huang Z M) 等. 光电子技术与信息( Photoelectronic Technology and Information) , 1997, 10 (1) : 8—11
[ 5 ]  Gutsche C D. Calixarenes. Cambridge: Royal Society of Chemistry, 1989
[ 6 ]  Chan W H, Lee A W M, Xia P F, et al. Tetrahedron Letters, 2000, 41 (30) : 5725—5728
[ 7 ]  Otauka H, Shinkai S. Sup ramolecular Science, 1996, 3 ( 4 ) : 189—205
[ 8 ]  Steemers F J, Mori S, Reinhoudt D N, et al. J. Am. Chem. Soc. , 1995, 117: 9408—9414
[ 9 ]  Steemers F J, Meuris H G, VerboomW, et al. Journal of Organic Chemistry, 1997, 62: 4229—4234
[ 10 ]  Liu Y, Zhang N, Zhao B T, et al. Spectrochimica Acta Part A, 2002, 58: 2889—2895
[ 11 ]  Lhoták P. Top ics in Current Chemistry, 2005, 255: 65—69
[ 12 ]  Lee S H, Kim S H, Kim S K, et al. Journal ofOrganic Chemistry, 2005, 70 (23) : 9288—9295
[ 13 ]  Zhi L, Zhilian L, Yunhua G. Tetrahedron Letters, 2007, 48: 3587—3590
[ 14 ]  Oueslati I, Ferreira R A S, Carlos L D. Inorganic Chemistry, 2006, 45: 2652—2660
[ 15 ]  刘志莲(Liu Z L) , 梁志(Liang Z) , 江林( J iangL)等. 高等学校化学学报( Chemical Journal of Chinese Universities) , 2006, 27 (5) : 888—890
[ 16 ]  Pappalardo S, Bottino F, Giunta L. Journal of Inclusion Phenomena and Molecular Recognition in Chemistry, 1991, 10: 387—392
[ 17 ]  Yu L, Ning Z, Bang T Z, et al. Spectrochimica Acta Part A, 2002, 58: 2889—2895
[ 18 ]  Wang H, Zhang H Y, Liu Y. Chinese Journal of Chemistry, 2005, 23: 740—744
[ 19 ]  Bagatin I A, Toma H E. New Journal of Chemistry, 2000, 24: 841—844
[ 20 ]  Le Saulnier L, Varbanov S, Scopelliti R, et al. Journal of Chemistry Society, Dalton Transactions, 1999, 3919—3925
[ 21 ]  Casnati A, BaldiniL, Sansone F, et al. Sup ramolecular Chemistry, 2002, 14 (2 /3) : 281—289
[ 22 ]  Atanassova M, Lachkova V, Vassilev N. Journal of Inclusion Phenomena andMacrocyclic Chemistry, 2007, 58: 173—179
[ 23 ]  Hofstraat J W, WolbersM P O, van Veggel F C J M, et al. Journal of Fluorescence, 1998, 8 (4) : 301—308
[ 24 ]  Casnati A, Sansone F, Sartori A, et al. European Journal of Organic Chemistry, 2003, 1475—1485
[ 25 ]  Wolbers M P O, van Veggel F C J M, Hofstraat J W, et al. Journal of the Chemical Society, Perkin Transactions 2, 1997, 11: 2275—2282
[ 26 ]  Sato N, Yoshida I, Shinkai S. ChemistryLetters, 1993, 1261— 1264
[ 27 ]  Iki N, Horiuchi T, Oka H, et al. Journal of the Chemistry Society, Perkin Transaction 2, 2001, 11: 2219—2225
[ 28 ]  Yoshida I, Koyabu K, Nishida M, et al. Analytical Sciences, 1994, 10 (2) : 353—354
[ 29 ]  Steemers F J, MeurisH G, Verboom W, et al. Journal of Organic Chemistry, 1997, 62: 4229—4235
[ 30 ]  Stein G, Würzberg E. Journal of Chemical Physics, 1975, 62: 208—213
[ 31 ]  Kajiwara T, Iki N, Yamashita M. Coordination Chemistry Reviews, 2007, 251: 1734—1746
[ 32 ]  Fonger W H, Struck C W. Journal of Chemical Physics, 1970, 52: 6364—6372
[ 33 ]  Wagner R W, Lindseyj S, Johnson T E, et al. J. Am. Chem. Soc. , 1996, 118 (45) : 11166—11180
[ 34 ]  Gust D, Moor T A, Moore A L, et al. Tetrahedron, 1989, 45 (15) : 4867—4891
[ 35 ]  Desi V A A P, Mccoy C P. Chemistry & Industry, 1994, (24) : 992—996
[ 36 ]  Lehn J M. Angew. Chem. Int. Ed. Engl. , 1990, 29 ( 11 ) : 1304—1319
[ 37 ]  Liu Z L, J iang L, Liang Z, et al. Tetrahedron Letters, 2005, 46: 885—887
[ 38 ]  Willner I, Rubin S. Angew. Chem. Int. Ed. Engl. , 1996, 35: 367—385
[ 39 ]  Berkovic G, Krongauz V, Weiss V. Chemical Reviews, 2000, 100: 1741—1754
[ 40 ]  Kido J, Nagai K, Ohashi Y. Chemistry Letters, 1990, 220: 657—660
[ 41 ]  Kido J, Nagai K, Okamoto Y, Skotheim T, et al. Chemistry Letters, 1991, 235: 1267—1270
[ 42 ]  Wei X Q, Yang G, Cheng J B, et al. Materials Chemistry and Physics, 2007, 102: 214—218
[ 43 ]  Deleersnyder K, Mehdi H, Horvath T I, et al. Tetrahedron, 2007, 63 (37) : 9063—9070
[ 44 ]  Tieke B, El-Hashani A, Toutianoush A, et al. Thin Solid Films, 2008, 516 (24) : 8814—8820
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