Fluorescent Chemodosimeters for Mercury(Ⅱ) Ions Detection

doi:10.7517/j.issn.1674-0475.2011.05.321

Abstract

Abstract: The development of fluorescent chemodosimeters has recently emerged as an active research area of significant importance.Chemodosimeters are used to detect an analyte through a highly selective and usually irreversible chemical reaction between the dosimeter molecule and the target analyte with high sensitivity and rapid response.Herein,we reviewed the literatures of the last few years covering the chemodosimetric approach for detecting mercury(Ⅱ) ions.

Key words: fluorescent chemodosimeter, mercury ions, detection

CLC Number:

HUANG Wen-jun, WU Wen-hui. Fluorescent Chemodosimeters for Mercury(Ⅱ) Ions Detection[J]. Imaging Science and Photochemistry, 2011, 29(5): 321-335.

References

[1] Lee J,Jun H,Kim J.Polydiacetylene-liposome microarrays for selective and sensitive mercury(Ⅱ)detection[J].Advanced Materials,2009,21(36):3674-3677.
[2] 徐全清王俊,张辉淼,傅文甫.基于蒽酰亚胺基团的新型Fe³⁺和Hg²⁺化学敏感器[J].影像科学与光化学,2009,27(1):23-31.Xu Q Q,Wang J,Zhang H M,Fu W F.New selective Fe³⁺and Hg²⁺ions chemosensors based on anthracenecar-bonamide derivatives[J].Imaging Science and Photochemistry,2009,27(1):23-31.
[3] Shi H F,Liu S J,Sun H B,et al.Simple conjugated polymers with on-chain phosphorescent iridium(ⅡI)com-plexes:toward ratiometric chemodosimeters for detecting trace amounts of mercury(Ⅱ)[J].Chemistry A Euro-pean Journal,2010,16(40):12158-12167.
[4] Quang D T,Kim J S.Fluoro-and chromogenic chemodosimeters for heavy metal ion detection in solution andbiospecimens[J].Chemical Reviews,2010,110(10):6280-6301.
[5] Chae M Y,Czarnik A W.Fluorometric chemodosimetry-mercury(Ⅱ)and silver(Ⅰ)indication in water Viaenhanced fluorescence signaling[J].Journal of the American Chemical Society,1992,114(24):9704-9705.
[6] Liu B,Tian H.A selective fluorescent ratiometric chemodosimeter for mercury ion[J].Chemical Communica-tions,2005,(25):3156.
[7] Yu M M,Li Z X,Wei L H,et al.A 1,8-naphthyridine-based fluorescent chemodosimeter for the rapid detec-tion of Zn2+and Cu2+[J].Organic Letters,2008,10(22):5115-5118.
[8] Kim J H,Kim H J,Kim S H,et al.Fluorescent coumarinyldithiane as a selective chemodosimeter for mercu-ry2+ion in aqueous solution[J].Tetrahedron Letters,2009,50(43):5958-5961.
[9] Kaur P,Kaur S,Kasetti Y,et al.A new colorimetric chemodosimeter for Hg²⁺based on charge-transfer com-pound of N-methylpyrrole with TCNQ[J].Talanta,2010,83(2):644-650.
[10] Misra A,Shahid M.Chromo and fluorogenic properties of some azo-phenol derivatives and recognition of Hg²⁺ ion in aqueous medium by enhanced fluorescence[J].Journal of Physical Chemistry C,2010,114(39):16726-16739.
[11] Nolan E M,Lippard S J.Tools and tactics for the optical detection of mercuric ion[J].Chemical Reviews,2008,108(9):3443-3480.
[12] Zhang G X,Zhang D Q,Yin S W,et al.1,3-Dithiole-2-thione derivatives featuring an anthracene unit:newselective chemodosimeters for Hg²⁺ion[J].Chemical Communications,2005,(16):2161-2163.
[13] Tsukamoto K,Shinohara Y,Iwasaki S,et al.A coumarin-based fluorescent probe for Hg²⁺ and Ag⁺ with an N’-acetylthioureido group as a fluorescence switch[J].Chemical Communications,2011,47(17):5073.
[14] Lu H,Tang Y,Xu W,et al.Highly selective fluorescence detection for mercury(Ⅱ)ions in aqueous solutionusing water soluble conjugated polyelectrolytes[J].Macromolecular Rapid Communications,2008,29(17):1467-1471.
[15] Liu B,Tian H.A selective fluorescent ratiometric chemodosimeter for mercury ion[J].Chemical Communica-tions,2005,(25):3156-3158.
[16] Lee M H,Lee S W,Kim S H,et al.Nanomolar Hg(Ⅱ)detection using nile blue chemodosimeter in biologicalmedia[J].Organic Letters,2009,11(10):2101-2104.
[17] Leng B,Jiang J,Tian H.A mesoporous silica supported Hg²⁺chemodosimeter[J].Aiche Journal,2010,56(11):2957-2964.
[18] Zou Q,Tian H.Chemodosimeters for mercury(Ⅱ)and methylmercury(I)based on 2,1,3-benzothiadiazole[J].Sensors and Actuators B-Chemical,2010,149(1):20-27.
[19] Sumiya S,Sugii T,Shiraishi Y,et al.A benzoxadiazole-thiourea conjugate as a fluorescent chemodosimeter forHg(Ⅱ)in aqueous media[J].Journal of Photochemistry and Photobiology A:Chemistry,2011,(219):154-158.
[20] Ma W,Xu Q,Du J,et al.A Hg²⁺-selective chemodosimeter based on desulfurization of coumarin thiosemicar-bazide in aqueous media[J].Spectrochimica Acta Part A:Molecular and Biomolecular Spectroscopy,2010,76(2):248-252.
[21] Yang Y K,Yook K J,Tae J.A rhodamine-based fluorescent and colorimetric chemodosimeter for the rapid de-tection of Hg²⁺ions in aqueous media[J].Journal of the American Chemical Society,2005,127(48):16760-16761.
[22] Lee M H,Wu J S,Lee J W,et al.Highly sensitive and selective chemosensor for Hg²⁺based on the rhoda-mine fluorophore[J].Organic Letters,2007,9(13):2501-2504.
[23] Wu J S,Hwang I C,Kim K S,et al.Rhodamine-based Hg²⁺-selective chemodosimeter in aqueous solution:Fluorescent OFF-ON[J].Organic Letters,2007,9(5):907-910.
[24] Chen X,Baek K H,Kim Y,et al.A selenolactone-based fluorescent chemodosimeter to monitor mecury/methylmercury species in vitro and in vivo[J].Tetrahedron,2010,66(23):4016-4021.
[25] Jiang L,Wang L,Zhang B,et al.Cell compatible fluorescent chemosensor for Hg²⁺with high sensitivity andselectivity based on the rhodamine fluorophore[J].European Journal of Inorganic Chemistry,2010,(28):4438-4443.
[26] Liu H,Yu P,Du D,et al.Rhodamine-based ratiometric fluorescence sensing for the detection of mercury(Ⅱ)in aqueous solution[J].Talanta,2010,81(1-2):433-437.
[27] Xu J A,Sun Y H,Zhang H.A rhodamine-based fluorescent chemsensor for Hg(Ⅱ)with high selectivity insolution[J].Chinese Journal of Inorganic Chemistry,2010,26(12):2189-2194.
[28] Zhao Y,Sun Y,Lv X,et al.Rhodamine-based chemosensor for Hg²⁺in aqueous solution with a broad pH range andits application in live cell imaging[J].Organic&Biomolecular Chemistry,2010,8(18):4143-4147.
[29] Zhou Y,You XY,Fang Y,et al.A thiophen-thiooxorhodamine conjugate fluorescent probe for detecting mer-cury in aqueous media and living cells[J].Organic&Biomolecular Chemistry,2010,8(21):4819-4822.
[30] Kim H N,Nam S W,Swamy K M K,et al.Rhodamine hydrazone derivatives as Hg²⁺selective fluorescentand colorimetric chemosensors and their applications to bioimaging and microfluidic system[J].Analyst,2011,136(7):1339-1343.
[31] Du J,Fan J,Peng X,et al.A new fluorescent chemodosimeter for Hg²⁺:selectivity,sensitivity,and resist-ance to Cys and GSH[J].Organic Letters,2010,12(3):476-479.
[32] Hu J M,Li C H,Liu S Y.Hg²⁺-reactive double hydrophilic block copolymer assemblies as novel multifunc-tional fluorescent probes with improved performance[J].Langmuir,2010,26(2):724-729.
[33] Liu J,Li C,Li F.Fluorescence turn-on chemodosimeter-functionalized mesoporous silica nanoparticles andtheir application in cell imaging[J].Journal of Materials Chemistry,2011,21:7175-7181.
[34] Choi M G,Ryu D H,Jeon H L,et al.Chemodosimetric Hg²⁺-selective signaling by mercuration of dichlo-rofluorescein derivatives[J].Organic Letters,2008,10(17):3717-3720.
[35] Santra M,Ryu D,Chatterjee A,et al.A chemodosimeter approach to fluorescent sensing and imaging of inor-ganic and methylmercury species[J].Chemical Communications,2009,(16):2115-2117.
[36] Song F L,Watanabe S,Floreancig P E,Koide K.Oxidation-resistant fluorogenic probe for mercury based onalkyne oxymercuration[J].Journal of the American Chemical Society,2008,130(49):16460-16461.
[37] Cho Y S,Ahn K H.A’turn-on’fluorescent probe that selectively responds to inorganic mercury species[J].Tetrahedron Letters,2010,51(29):3852-3854.
[38] Samb I,Bell J,Toullec P Y,et al.Fluorescent phosphane selenide as efficient mercury chemodosimeter[J].Organic Letters,2011,13(5):1182-1185.
[39] Sabounchei S J,Samiee S,Salehzadeh S,et al.New mononuclear mercury(Ⅱ)complexes of a bifunctionalizedylide containing five-membered chelate ring:spectral and structural characterization[J].Inorganica ChimicaActa,2010,363(14):3654-3661.
[40] Kharat A N,Tamaddoni J B,Bakhoda A,et al.Synthesis and chemistry of tris(2-pyridyl)phosphine and bis(2-pyridyl)phenylphosphine complexes of mercury(Ⅱ)X(X=Br,Cl)and X-ray crystal structural determi-nation of[HgBr₂(PPh(2-py)₂)₂] [J].Journal of Coordination Chemistry,2010,63(21):3783-3791.
[41] Huo F J,Sun Y Q,Su J,et al.Chromene"lock",thiol"key",and mercury(Ⅱ)ion"hand":a Single molecular machine recognition system[J].Organic Letters,2010,12(21):4756-4759.