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化学进展  2010 

基于小分子的汞离子荧光探针*

, PP. 1741-1752

Keywords: 汞离子,荧光探针,离子识别

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Abstract:

汞离子(Hg2+)作为一种极具生理毒性的化学物质,其检测方法在传感领域得到了广泛的研究。荧光探针由于具有高效灵敏、快速便捷检测等优点而成为Hg2+检测的重要手段之一。通过Hg2+与探针特征的结合位点作用,引起其光物理性质的变化,从而实现对Hg2+的高选择性识别。本文综述了近年来小分子Hg2+荧光探针的研究进展。文中着重总结了Hg2+荧光探针分子的设计原理、检测机制及应用方法;评述了这些化合物的结构和检测性能之间的关系;最后展望了Hg2+荧光探针的研究和发展方向。

References

[1]  [1 ] Nolan E M,Lippard S J. Chem. Rev. ,2008,108: 3443—
[2]  3480
[3]  [3 ] Han S B,Zhu M,Yuan Z B,Li X. Biosens. Bioelectron,
[4]  [4 ] Burress C N,Bodine M I,Elbjeirami O,Reibenspies J H,
[5]  [5 ] Moon S Y,Youn N J,Park S M,Chang S K. J. Org. Chem. ,
[6]  [7 ] Song K C,Kim M H,Kim H J,Chang S K. Tetrahedron Lett. ,
[7]  2007,48: 7464—7468
[8]  [8 ] Yang Y,Jiang J H,Shen G L,Yu R Q. Anal. Chim. Acta,
[9]  [9 ] Li G K,Liu M,Yang G Q,Chen C F,Huang Z T. Chinese J.
[10]  Chem. ,2008,26: 1440—1446
[11]  Pandey S,Azam A,Pandey S,Chawla H M. Org. & Biomo.
[12]  Chem. ,2009,7: 269—279
[13]  1415
[14]  Chem. Int. Edit. ,2006,45: 3150—3154
[15]  Saleh N. Luminescence,2009,24: 30—34
[16]  Ha-thi M H,Penhoat M,Michelet V,Leray I. Org. Lett. ,
[17]  Chem. ,2009,7: 1665—1673
[18]  De Silva A P,Nimal Gunaratne H Q,Gunnlaugsson T,Huxley A
[19]  Carraway E R,Demas N,Degraff B A D. Anal. Chem. ,1991,
[20]  63: 337—342
[21]  Zhao Q,Liu S J,Li F Y,Yi T,Huang C H. Dalton Trans. ,
[22]  2008,3836—3840
[23]  Costero A M, Andreu R, Monrabal E, Martinez-manez R,
[24]  Metivier R, Leray I,Valeur B. Chem-Eur. J. ,2004,10:
[25]  4480—4490
[26]  Wanichacheva N,Siriprumpoonthum M,Kamkaew A,Grudpan
[27]  Hennrich G,Walther W,Resch-genger U, Sonnenschein H.
[28]  Inorg. Chem. ,2001,40: 641—644
[29]  Shiraishi Y,Sumiya S,Kohno Y,Hirai T. J. Org. Chem. ,
[30]  Zhang X,Shiraishi Y,Hirai T. Tetrahedron Lett. ,2007,48:
[31]  Chem-Eur. J. ,2008,14: 3904—3907
[32]  Kim S H,Kim J S,Park S M,Chang S K. Org. Lett. ,2006,
[33]  8: 371—374
[34]  Lett. ,2008,10: 4581—4584
[35]  Lee H N,Kim H N,Swamy K M,Park M S,Kim J,Lee H,
[36]  1261—1265
[37]  Ma L J,Li Y,Li L,Sun J,Tian C J,Wu Y Q. Chem.
[38]  Guo X F,Qian X H,Jia L H. J. Am. Chem. Soc. ,2004,
[39]  He G J,Zhao Y G,He C,Liu Y,Duan C Y. Inorg. Chem. ,
[40]  2008,47: 5169—5176
[41]  2167—2170
[42]  Chen X Q,Nam S W,Jou M J,Kim Y,Kim S J,Park S,Yoon
[43]  J. Org. Lett. ,2008,10: 5235—5238
[44]  Y. Inorg. Chem. ,2009,48: 5061—5072
[45]  Yoon S H,Albers A E,Wong A P,Chang C J. J. Am. Chem.
[46]  Tang B,Cui L J,Xu K H,Tong L L,Yang G W,An L G.
[47]  Chembiochem. ,2008,9: 1159—1164
[48]  Zhang G X,Zhang D Q,Yin S W,Yang X D,Shuai Z,Zhu D
[49]  B. Chem. Commun. ,2005,2161—2163
[50]  Mi-Young Chae,Czarnik W C. J. Am. Chem. Soc. ,1992,
[51]  Kim J H,Kim H J,Kim S H,Lee J H,Do J H,Kim H J,Lee
[52]  Choi M G,Kim Y H,Namgoong J E,Chang S K. Chem.
[53]  Commun. ,2009,3560—3562
[54]  Lee M H,Lee S W,Kim S H,Kang C,Kim J S. Org. Lett. ,
[55]  2009,11: 2101—2104
[56]  Jiang W,Wang W. Chem. Commun. ,2009,3913—3915
[57]  Liu W M,Xu L W,Zhang H Y,You J J,Zhang X L,Sheng R
[58]  7: 660—664
[59]  Wu D Y,Huang W,Duan C Y,Lin Z H,Meng Q J. Inorg.
[60]  Chem. ,2007,46: 1538—1540
[61]  Chem. Commun. ,2009,2115—2117
[62]  15: 3147—3151
[63]  2008,47: 8025—8029
[64]  Shang G Q, Gao X, Chen M X, Zheng H, Xu J G. J.
[65]  Fluoresc. ,2008,18: 1187—1192
[66]  Zhu M,Yuan M J,Liu X F,Xu J L,Lv J,Huang C S,Liu H
[67]  B,Li Y L,Wang S,Zhu D B. Org. Lett. ,2008,10: 1481—
[68]  Shrivastav A,Das A. Org. Lett. ,2009,11: 2740—2743
[69]  Jr L. Principles of Fluorescence Spectroscopy. 2nd ed. NY:
[70]  Plenum. 1999
[71]  Rapid Comm. ,2008,29: 1212—1215
[72]  Suresh M,Shrivastav A,Mishra S,Suresh E,Das A. Org.
[73]  Lett. ,2008,10: 3013—3016
[74]  Liu C W,Huang C C,Chang H T. Langmuir,2008,24:
[75]  8346—8350
[76]  Long Y F,Jiang D L,Zhu X,Wang J X,Zhou F M. Anal.
[77]  Chem. ,2009,81: 2652—2657
[78]  [2 ] Zhao Q,Cao T Y,Li F Y,Li X H,Jing H,Yi T,Huang C H.
[79]  Organometallics,2007,26: 2077—2081
[80]  2001,16: 9—16
[81]  Omary M A,Gabbai F P. Inorg. Chem. ,2007,46: 1388—
[82]  1395
[83]  2005,70: 2394—2397
[84]  [6 ] Park S M,Kim M H,Choe J I,No K T,Chang S K. J. Org.
[85]  Chem. ,2007,72: 3550—3553
[86]  2009,636: 83—88
[87]  Che Y,Yang X M,Zang L. Chem. Commun. ,2008,1413—
[88]  Zhu X J,Fu S T,Wong W K,Guo H P,Wong W Y. Angew
[89]  Juyoung Y,Norman E,Ohler A W C. Tetrahedron Lett. ,1997,
[90]  38: 3845—384
[91]  Wu Z K,Zhang Y F,Ma J S,Yang G Q. Inorg. Chem. ,2006,
[92]  45: 3140—3142
[93]  2007,9: 1133—1136
[94]  Ha-thi M H,Penhoat M,Michelet V,Leray I. Org. & Biomo.
[95]  J M,Mccoy C P. Chem. Rev. ,1997,97: 1515—1566
[96]  Sancenon F,Soto J. J. Am. Chem. Soc. ,2002,1769—1775
[97]  Kim J H,Hwang A R,Chang S K. Tetrahedron Lett. ,2004,
[98]  45: 7557—7561
[99]  Kim S H, Song K C, Ahn S, Kang Y S, Chang S K.
[100]  Tetrahedron Lett. ,2006,47: 497—500
[101]  K. Tetrahedron Lett. ,2009,50: 1783—1786
[102]  Hennrich G,Sonnenschein H,Resch-genger U. J. Am. Chem.
[103]  Soc. ,1999,121: 5073—5074
[104]  Lakowicz J R. Principles of Fluorescence Spectroscopy. 3rd ed.NY: Springer,2006. 67—69
[105]  2008,73: 8571—8574
[106]  5455—5459
[107]  Soh J H,Swamy K M,Kim S K,Kim S,Lee S H,Yoon J.
[108]  Tetrahedron Lett. ,2007,48: 5966—5969
[109]  Huang W,Zhou P,Yan W B,He C,Xiong L Q,Li F Y,Duan
[110]  C Y. J. Environ. Monitor,2009,11: 330—335
[111]  Romero T,Caballero A,Espinosa A,Tárraga A,Molina P.
[112]  Dalton Trans. ,2009,2121—2129
[113]  Shunmugam R,Gabriel G J,Smith C E,Aamer K A,Tew G N.
[114]  Liu L,Zhang G X,Xiang J F,Zhang D Q,Zhu D B. Org.
[115]  Lee K H, Park S, Yoon J. Tetrahedron Lett. ,2008,49:
[116]  Commun. ,2008,6345—6347
[117]  126: 2272—2273
[118]  Liu L,Zhang G X,Xiang J Z,Zhang D Q,Zhu D B. Org.
[119]  Lett. ,2008,10: 4581—4584
[120]  Huang J H,Xu Y F,Qian X H. J. Org. Chem. ,2009,74:
[121]  Huang W,Song C X,He C,Lv G J,Hu X Y,Zhu X,Duan C
[122]  Soc. ,2005,127: 16030—16031
[123]  114: 9704—9705
[124]  J H,Kim J S. Tetrahedron Lett. ,2009,50: 5958—5961
[125]  Lee D N,Kim G J,Kim H J. Tetrahedron Lett. ,2009,50:
[126]  4766—4768
[127]  L,Li H P,Wu S K,Wang P F. Org. & Biomo. Chem. ,2009,
[128]  Santra M,Ryu D,Chatterjee A,Ko S K,Shin I,Ahn K H.
[129]  Tang B,Ding B Y,Xu K H,Tong L L. Chem. Eur. J. ,2009,
[130]  Zhang X L,Xiao Y,Qian X H. Angew Chem. Int. Edit. ,
[131]  1484
[132]  Dhir A,Bhalla V,Kumar M. Org. Lett. ,2008,10: 4891—
[133]  4894
[134]  Suresh M,Mishra S,Mishra S K,Suresh E,Mandal A K,
[135]  Joshi B P,Park J,Lee W I,Lee K H. Talanta,2009,78:
[136]  903—909
[137]  Rag P C,Darbha G K,Ray A. Plasmonics,2007,2: 173—183
[138]  Liu S J,Fang C,Zhao Q,Fan Q L,Huang W. Macromol.
[139]  Fang Z,Pu K Y,Liu B. Macromolecules,2008,41: 8380—
[140]  8387

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