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Progress in Chemistry 2008, Vol. 20 Issue (12): 2012-2020 Previous Articles   Next Articles

• Review •

Conjugated Polymers Based Fluorescent Chemosensors for ions

Feng Jichang; Li Yang; Yang Mujie*   

  1. (Department of Polymer Science and Engineering, Key Laboratory of Macromolecular Synthesis and Functionalization, Ministry of Education, Zhejiang University, Hangzhou 310027, China)

  • Received: Revised: Online: Published:
  • Contact: Yang Mujie
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Fluorescent sensors can transfer molecular recognition events into fluorescent signals. Among various kinds of chemosensors, fluorescent sensor offer distinct advantages in terms of sensitivity, selectivity, response time and in situ observation, and have attracted much attention recently. This review summarizes the progress of conjugated polymers based fluorescent chemosensors for ions. The molecular design, synthesis, mechanism and application of conjugated polymers based fluorescent chemosensors for cations are detail described, and the developing orientation for further research is presented.
Key words: conjugated polymers, chemosensors, fluorescence, ion recognition

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[1 ] Callan J F , de Silva A P , Magri D C. Tetrahedron , 2005 , 61(36) : 8551 —8588
[2 ] Valeur B. Molecular Fluorescence : Principles and Applications.Weinheim: Wiley , 2001. 273 —350
[3 ] Rurack K. Spectrochimica Acta , Part A: Molecular and Biomolecular Spectroscopy , 2001 , 57A (11) : 2161 —2195
[4 ] Godwin H A. Curr. Opin. Chem. Biol . , 2001 , 5 ( 2 ) :223 —227
[5 ] Landrigan P J , Todd A C. Western Journal of Medicine , 1994 ,161 (2) : 153 —159
[6 ] Basu N , Kwan M, Chan H M. Journal of Toxicology and Environmental Health , Part A , 2006 , 69 (12) : 1133 —1143
[7 ] De Silva A P , Gunaratne H Q N , Gunnlaugsson T, et al . Chem.Rev. , 1997 , 97 (5) : 1515 —1566
[8 ] Haupt K, Mosbach K. Chem. Rev. , 2000 , 100 ( 7 ) :2495 —2504
[9 ] Zhou Q , Swager T M. J . Am. Chem. Soc. , 1995 , 117 (26) :7017 —7018
[10] Zhou Q , Swager T M. J . Am. Chem. Soc. , 1995 , 117 (50) :12593 —12602
[11] Chen L , McBranch D , Wang R , et al . Chem. Phys. Lett . ,2000 , 330 (1/2) : 27 —33
[12] Xu H , Wu H , Fan C , et al . Chin. Sci . Bull . , 2004 , 49 (21) :2227 —2231
[13] Swager T M. Acc. Chem. Res. , 1998 , 31 (5) : 201 —207
[14] Pinto M R , Kristal B M, Schanze K S. Langmuir , 2003 , 19(16) : 6523 —6533
[15] Harrison B S , Ramey M B , Reynolds J R , et al . J . Am. Chem.Soc. , 2000 , 122 (35) : 8561 —8562
[16] Wang D L , Wang J , Moses D , et al . Langmuir , 2001 , 17 (4) :1262 —1266
[17] Di Cesare N , Pinto M R , Schanze K S , et al . Langmuir , 2002 ,18 (21) : 7785 —7787
[18] Tan C Y, Pinto M R , Schanze K S. Chemical Communications ,2002 , (5) : 446 —447
[19] Xu H , Wu H P , Huang F , et al . Nucleic Acids Res. , 2005 , 33(9) :art . no. e83
[20] Fan C H , Plaxco K W, Heeger A J . Trends Biotechnol . , 2005 ,23 (4) : 186 —192
[21] An L L , Tang Y L , Feng F D , et al . J . Mater. Chem. , 2007 ,17 (39) : 4147 —4152
[22] Sun H , Feng F , Yu M H , et al . Macromol . Rapid Commun. ,2007 , 28 (18P19) : 1905 —1911
[23] Feng F D , Tang YL , Wang S , et al . Angew. Chem. Int . Edit . ,2007 , 46 (41) : 7882 —7886
[24] Prodi L , Bolletta F , Montalti M, et al . Coord. Chem. Rev. ,2000 , 205 : 59 —83
[25] Liu B , Yu W L , Huang W, et al . Macromolecules , 2001 , 34(23) : 7932 —7940
[26] Zhang Y, Murphy C B , Jones W E. Macromolecules , 2002 , 35(3) : 630 —636
[27] Tang Y L , He F , Wang S , et al . Macromol . Rapid Commun. ,2006 , 27 (6) : 389 —392
[28] Kim I B , Bunz U H F. J . Am. Chem. Soc. , 2006 , 128 (9) :2818 —2819
[29] Liu X F , Tang Y L , Wang L H , et al . Adv. Mater. , 2007 , 19(11) : 1471 —1474
[30] Kim I B , Erdogan B , Bunz U H F , et al . Chemistry : A European Journal , 2004 , 10 (24) : 6247 —6254
[31] Huang H M, Wang K M, Tan W H , et al . Angew. Chem. Int .Edit . , 2004 , 43 (42) : 5635 —5638
[32] Kim I B , Dunkhorst A , Bunz U H F , et al . Macromolecules ,2005 , 38 (11) : 4560 —4562
[33] Yu M H , He F , Wang S , et al . Macromol . Rapid Commun. ,2007 , 28 (12) : 1333 —1338
[34] Na J H , Kim Y S , Lee T S , et al . J . Polym. Sci . Part A:Polym. Chem. , 2004 , 42 (10) : 2444 —2450
[35] Wu T Y, Chen Y. J . Polym. Sci . Part A: Polym. Chem. ,2004 , 42 (5) : 1272 —1284
[36] Zhou G, Qian G, Wang L , et al . Macromolecules , 2005 , 38(13) : 5416 —5424
[37] Fan L J , Jones W E. J . Am. Chem. Soc. , 2006 , 128 (21) :6784 —6785
[38] Chen Y, Fan Q L , Huang W, et al . Polymer , 2006 , 47 (15) :5228 —5232
[39] Tong H , Wang L X, Jing X B , et al . Macromolecules , 2002 , 35(19) : 7169 —7171
[40] Zhou X H , Yan J C , Pei J . Macromolecules , 2004 , 37 (19) :7078 —7080
[41] Kim J , McQuade D T, Swager T M, et al . Angew. Chem. Int .Edit . , 2000 , 39 (21) : 3868 —3872
[42] Bera-Aberem M, Ho H A , Leclerc M. Tetrahedron , 2004 , 60(49) : 11169 —11173
[43] Liu H W, Wang S , Xi F , et al . J . Mater. Chem. , 2001 , 11(12) : 3063 —3067
[44] He F , Tang Y L , Wang S , et al . J . Am. Chem. Soc. , 2005 ,127 (35) : 12343 —12346
[45] Chen Z, Xue C H , Liu H , et al . Anal . Chem. , 2004 , 76 (21) :6513 —6518
[46] Pei J , Ding A L , Yu W L , et al . Macromol . Rapid Commun. ,2002 , 23 (1) : 21 —25
[47] Ding A L , Pei J , Yu W L , et al . Thin Solid Films , 2002 , 417(1/2) : 198 —201
[48] Miyata M, Chujo Y. Polymer Journal , 2002 , 34 (12) : 967 —969
[49] Saxena A , Fujiki M, Rai R , et al . Macromol . Rapid Commun. ,2004 , 25 (20) : 1771 —1775
[50] Kim T H , Swager T M. Angew. Chem. Int . Edit . , 2003 , 42(39) : 4803 —4806
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