氯金酸-罗丹明S缔合纳米微粒体系的共振散射增强与荧光猝灭研究  被引量：7

作　　者：蒋治良[1] 刘凤志[2] 刘绍璞[1] 卢欣[2] 

机构地区：[1]西南师范大学环境化学研究所,重庆400715 [2]广西师范大学,桂林541004

出　　处：《分析化学》2003年第11期1364-1368,共5页Chinese Journal of Analytical Chemistry

基　　金：国家自然科学基金 (No .2 0 175 0 18);广西自然科学基金;重庆市自然科学基金资助项目

摘　　要：在 0 .2mol/LHCl介质中 ,罗丹明S(RDS)分别在 5 2 0nm和 5 5 0nm处有一个吸收峰和荧光峰。当有Au 存在时 ,Au 与Cl-形成AuCl-4,AuCl-4与RDS+ 借助于静电引力形成疏水性的AuCl4 RDS缔合物分子。AuCl4 RDS分子间存在较强的分子间作用力和疏水作用力而生成 (AuCl4 RDS) n 缔合纳米微粒 ,粒径为 4 5nm。在 36 0nm产生瑞利散射峰 ,在 6 0 0nm产生共振散射峰。由于纳米微粒形成后 ,只有裹露在 (AuCl4 RDS) n 纳米微粒界面的RDS荧光分子才能吸收激发光子跃迁到激发态 ,进而返回基态产生荧光。而体相的RDS荧光分子无法与激发光作用产生荧光 ,即受激RDS分子数大为降低 ,故 5 5 0nm荧光峰和 5 2 0nm吸收峰的降低。当缔合纳米微粒体系加入乙醇后 ,体系的红紫色和共振散射峰消失 ,吸收峰和荧光峰恢复 ,由于乙醇致使(AuCl4 RDS) n 纳米微粒分解为AuCl4 RDS分子。结果表明 :红紫色 (AuCl4 RDS) n 纳米粒子的形成是其共振散射增强。There are a maximum absorption peak at 520 nm and a fluorescence peak at 550 nm for rodamine S (RDS) in the medium of 0.2 mol/L HCl. The AuCl4- and RDS+ combine into hydrophobic AuCl4-RDS association molecule by means of static gravitation. There are stronger Van de Waals forces and hydrophobic forces among AuCl4-RDS molecules. So it forms (AuCl4-RDS) n association nanoparticle in red-violet that exhibit a Rayleigh scattering peaks at 360 nm and a resonance scattering peaks at 600 nm. The diameter of the nanoparticle is about 45 nm. The fluorescence quenching at 550 nm and the absorption peak decreasing at 520 nm are owing to that the RDS molecule in the body of the nanoparticle may not be excited by incidence photons, and it does not emit fluorescence. The (AuCl4-RDS)(n) nanoparticle can be decomposed into AuCl4-RDS association molecule by alcohol. So that, the resonance scattering peaks and the red-violet disappear. And the absorption peak at 520 nm and fluorescence peak at 550 nm/510 nm appear again when alcohols are added into the association nanoparticle system. The results demonstrate that the formation of (AuCl4-RDS). association nanoparticle in red-violet is results for its enhanced Rayleigh scattering and fluorescence quenching and a resonance scattering peaks at 600 nm.

关 键 词：氯金酸 罗丹明S 缔合纳米微粒 共振散射增强 荧光猝灭 分析试剂 

分 类 号：O657.3[理学—分析化学]