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茜素应用于阴离子识别 被引量:8

ANION SENSOR BASED ON ALIZARIN VIA COLORIMETRIC ASSAY
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摘要 应用吸收光谱滴定法研究了茜素与阴离子间的识别行为,比较了受体分子结构对阴离子配合物稳定性的影响。研究结果表明:在乙腈中,茜素通过氢键与Fˉ和AcOˉ分别形成 12和 11型稳定的阴离子配合物,在长波长 563nm和 553nm处分别出现电荷转移吸收带,溶液由无色变为紫红色或浅紫色,其它的阴离子如H2PO4ˉ,HSO4ˉ,ClO4ˉ,Clˉ及Brˉ等未引起明显的光谱及溶液颜色的变化。同时考察了 2, 4-二羟基苯甲酸和 3, 4-二羟基苯甲酸对阴离子的识别作用,发现:Fˉ对上述两个化合物吸收光谱影响相似,无明显差异;而AcOˉ对两者的光谱影响差别较大。因此,我们认为茜素对Fˉ和AcOˉ具有选择性识别作用取决于阴离子的碱性和主体分子的空间结构。 A selective colorimetric assay for fluoride and acetate anion based on alizarin was developed.The effect of hydroxy configuration to anionic complex formation was investigated by UV-vis spectra titration.Results indicated that 1:2 complex between alizarin and fluoride was formed in acetonitrile,however,1:1 complex formed between alizarin and acetate.In the presence of fluoride or acetate,a new Absorption band appeared peaked at 563 nm and 553 nm respectively and the solution of alizarin turned from yellow to purple.However,no detectable color changes were observed in the present of other anions such as dihydrogen phosphate,chloride,bromate and hydrogen sulfate.Absorption spectra properties between the control compounds (3,4-dihydroxybenzoic acid and 2,4-dihydroxybenzoic acid) and anions were investigated.In conclusion,alizarin was found to selectively sense fluoride and acetate, this is attributed to the basicity of anions and configuration of receptor.
作者 吴芳英 胡美华 刘松 谭晓芳
机构地区 南昌大学分析测试中心
出处 《南昌大学学报(理科版)》 CAS 北大核心 2005年第1期84-87,共4页 Journal of Nanchang University(Natural Science)
基金 江西省自然科学基金(0420041)
关键词 阴离子识别 氢键 裸眼检测 茜素 anions recognition hydrogen bond colorimetric assay alizarin
分类号 O657.3 [理学—分析化学]
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参考文献13

  • 1吴芳英,谭晓芳,胡美华,王宇晓.喹啉类主体分子的设计合成与阴离子识别[J].化学学报,2004,62(15):1451-1454. 被引量:26
  • 2Beer P D and Gale P A.Anion Recognition and Sensing:The State of the Art and Future Perspectives[J].Angew Chem Int Ed Engl,2001,40:487-516.
  • 3Martìnez-Máňez R,Sancenón F.Fluorogenic and Chromogenic Chemosensors and Reagents for Anions[J].Chem Rev,2003,103:4419-4476.
  • 4Kato R,Nishizawa S,Hayashita T,et al.A thiourea-based Chromoionophore for Selective Binding and Sensing of Acetate[J].Tetrahedron Lett,2001,42:5053-5056.
  • 5Lee K H,Lee H Y,Lee D H,et al.Fluoride-Selective Chromogenic Sensors Based on Azophenol[J].Terahendron Lett,2001,42:5 447-5 449.
  • 6Lee C,Lee D H,Hong J In. Colorimetric Anion Sensing by Porphyrin-based Anion Receptors[J].Tetrahedron Lett,2001,42:8665-8668.
  • 7Sancenón F,Martìnez -Máňez R,Soto J. A Selective Chromogenic Reagent for Nitrate[J].Angew Chem Int Ed Engl,2002, 41:1416-1419.
  • 8Piatek P,Jurczak J.A Selective Colorimetric Anion Sensor Based on an Amide Group Containing Macrocycle[J].Chem Commun,2002, 2450-2451.
  • 9Jiménez D,Martínez-Máez R,Sancenón F,et al.Selective Fluoride Sensing Using Colorimetric Reagents Containing Anthraquinone and Urea or Thiourea Binding Sites [J].Tetrahedron Lett,2002,43:2823-2825.
  • 10Miyaji H,Collinson S R,Prokes I,et al.A Ditopic Ferrocene Receptor for Anions and Cations That Functions as a Chromogenic Molecular Switch[J].Chem Commun,2003,64-65.

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南昌大学学报(理科版)
2005年 第1期

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