新型罗丹明B衍生物增色铜离子检测性能-《武汉工程大学学报》

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Title:: Properties of novel Rhodamine B derivative colorimetric
sensor for copper ion

文章编号:: 16742869(2011)11000106

作者:: 黎俊波; 曾阳; 陈方胜; 高杨; 胡启辉; 潘志权*; 绿色化工过程教育部重点实验室，武汉工程大学化工与制药学院，湖北武汉 430074

Author(s):: LI Junbo; ZENG Yang; CHEN Fangsheng; GAO Yang; HU Qihui; PAN Zhiquan; Key Laboratory for Green Chemical Process of Ministry of Education,School of Chemical Engineering & Pharmacy,
Wuhan Institute of Technology,Wuhan 430074,China

关键词:: 罗丹明; 香豆素; 铜离子; 离子检测

Keywords:: Rhodamine B; coumarin; copper ion; ions detection

分类号:: O626.31

DOI:: -

文献标志码:: AAdoi:10.3969/j.issn.16742869.2011.11.001

摘要:: 设计、合成一种新的罗丹明与香豆素连接的功能染料，7二乙胺基香豆素3罗丹明B酰肼西夫碱(RHC)，在乙腈/水(41，v/v，pH=7.0)溶液中，该探针本身为黄色，加入铜离子后很快变为紫红色，而其它金属离子的加入没有明显的颜色变化.该探针与铜离子的结合比例为12，探针能选择性的检测铜离子，可用于环境中铜离子的快速实时检测.

Abstract:: A novel functional dye of Rhodamine linked with Coumarin derivative,Rhodamine B hydrazide 7diethylamino3formoxylCoumarin schiffbase (RHC) were designed and synthesized.The solution of RHC (CH3CN/H2O=41,v/v,pH=7.0) turned from yellow to amaranth when 10 eq Cu2+ was added.The selectivity and sensitivity of RHC were very high. RHC formed 12 complex with Cu2+ which can be used in the quick detection of Cu2+ in environment.

参考文献/References:

［1］Alizadeh K,Parooi R,Hashemi P,et al.A new Schiff’s base ligand immobilized agarose membrane optical sensor for selective monitoring of mercury ion［J］.Journal of Hazardous Materials,2011,186:17941800.
［2］Tangang L J,Li F F,Liu M H，et al.Single sensor for two metal ions:Colorimetric recognition of Cu2+ and fluorescent recognition of Hg2+［J］.Spectrochimica Acta Part A,2011,78:11681172.
［3］Masrournia M,Zamani H A,Mirrashid H A,et al.Ditertbutylazodicarboxylate based PVC membrane sensor for Fe(III) ion measurement in pharmaceutical formulation［J］.Materials Science and Engineering C,2011,31:574578.
［4］Tseng C M,Diego A D,Martin F M,et al.Rapid Determination of Inorganic Mercury and Methylmercury in Biological Reference Materials by Hydride Generation,Cryofocusing,Atomic Absorption Spectrometry After Open Focused Microwaveassisted Alkaline Digestion ［J］.J Anal Atom Spectrom,1997,12:743750.
［5］Li Y F,Chen C Y,Li B.Elimination efficiency of different reagents for the memory effect of mercury using ICPMS［J］.J Anal Atom Spectrom,2006,21:9496.
［6］Chen Y W,Tong J,D′Ulivo A,et al.Determination of mercury by continuous flow cold vapor atomic fluorescence spectrometry using micromolar concentration of sodium tetrahydroborate as reductant solution［J］.Analyst,2002,127:15411546.
［7］Anthemidis A N,Zachariadis G A,Michos C E,et al.Timebased online preconcentration cold vapour generation procedure for ultratrace mercury determination with inductively coupled plasma atomic emission spectrometry ［J］.Anal Bioanal Chem,2004,379:764769.
［8］Yantasee W,Lin Y H,Zemanian T S,et al.Voltammetric detection of lead(II) and mercury(II) using a carbon paste electrode modified with thiol selfassembled monolayer on mesoporous silica (SAMMS)［J］.Analyst,2003,128:467472.
［9］Dujols V,Ford F,Czarnik A W.A LongWavelength Fluorescent Chemodosimeter Selective for Cu(II) Ion in Water［J］.J Am Chem Soc,1997,119:73867387.
［10］Ciesienski K L,Hyman L M,Derisavifard S,et al.Toward the Detection of Cellular Copper(II) by a LightActivated Fluorescence Increase［J］.Inorg Chem,2010,49:68086810.
［11］黎俊波，李楠楠，余响林，等.高选择性铁离子荧光探针的合成及性质研究［J］.武汉工程大学学报，2010,32(5):1114.
［12］Malvankar P L,Shinde V M.Ionpair Extraction and Determination of Copper (Ⅱ) and Zinc (Ⅱ) in Environmental and Pharmaceutical Samples［J］.Analyst,1991,116:10811084.
［13］Wang H G，Li Y P，Xu S F，et al.Rhodaminebased highly sensitive colorimetric offon fluorescent chemosensor for Hg2+ in aqueous solution and for live cell imaging［J］.Org Biomol Chem,2011,9:28502855.
［14］Chen X Q，Jou M J，Lee H Y，et al.New fluorescent and colorimetric chemosensors bearing rhodamine and binaphthyl groups for the detection of Cu2+［J］.Sensors and Actuators B,2009,137:597602.
［15］Amrita C，Mithun S，Nayoun W，et al.Selective Fluorogenic and Chromogenic Probe for Detection of Silver Ions and Silver Nanoparticles in Aqueous Media［J］.J Am Chem Soc,2009,131:20402041.
［16］Huang K W，Yang H，Zhou Z G，et al.Multisignal Chemosensor for Cr3+ and Its Application in Bioimaging［J］.Org Lett,2008,10(12):25572560.
［17］Yu F B，Zhang W S，Li P，et al.Cu2+selective nakedeye and fluorescent probe:its crystal structure and application in bioimaging［J］.Analyst,2009,134:18261833.
［18］Zhou Y，Liu K，Li J Y，et al.Visualization of Nitroxyl in Living Cells by a Chelated Copper (Ⅱ) Coumarin Complex［J］.Org Lett,2011,13:12901293.
［19］He G J，Zhao X W，Zhang X L，et al.A Bright and Specific Turnon Fluorescence Sensor for Imaging Copper (Ⅱ) in Living Cells［J］.New Journal of Chemistry,2010,34:10551058.
［20］Jung H S,Kwon P S,Lee J W,et al.CoumarinDerived Cu2+Selective Fluorescence Sensor:Synthesis,Mechanisms,and Applications in Living Cells［J］.J Am Chem Soc,2009,131:20082012.
［21］Sheng R,Wang P F,Gao Y H,et al.Colorimetric Test Kit for Cu2+ Detection［J］.Org Lett,2008,10:50155018.
［22］Wu J,Liu W,Zhuang X,et al.Fluorescence Turn On of Coumarin Derivatives by Metal Cations:A New Signaling Mechanism Based on CN Isomerization［J］.Org Lett,2007,9:3336.
［23］Jun M E,Ahn K H.Fluorogenic and Chromogenic Detection of Palladium Species through a Catalytic Conversion of a Rhodamine B Derivative［J］.Org Lett,2010,12:27902793.
［24］Zheng H,Shang G Q,Yang S Y,et al.Fluorogenic and Chromogenic Rhodamine Spirolactam Based Probe for Nitric Oxide by Spiro Ring Opening Reaction［J］.Org Lett,2008,10:23572360.

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