1) fluorescence spectrophotometry
增敏荧光光谱法
1.
Determination of Al~(3+) by sensitized fluorescence spectrophotometry;
增敏荧光光谱法测定水中铝的含量
2) enhanced fluorimetric method
增敏荧光法
1.
A novel and sensitive enhanced fluorimetric method has been developed for the fast determination of dioctyl-o-phthalate.
研究发现,在弱酸缓冲介质中,罗丹明6G对邻苯二甲酸二辛酯的共振散射具有增敏作用,据此建立了一种增敏荧光法快速测定邻苯二甲酸二辛酯的新方法。
3) Fluorescence enhancement
荧光增敏
1.
The preparation of ZnSe Qdots in aqueous solution and the effects of photo-induced fluorescence enhancement
ZnSe量子点的水相合成及光诱导荧光增敏效应
2.
Aim Based on the significant fluorescence enhancement of β-CD on a new drug,sodium daidzein-3′-sulfonate(SDS),to develop a new spectrofluorimetric method for the determination of SDS in the aqueous solution in the presence of β-CD.
目的利用β-环糊精对新型药物大豆苷元-3′-磺酸钠的荧光增敏作用建立一种测定其含量的荧光光度分析新方法。
3.
The significant fluorescence enhancement of β-CD on puerarin is studied by using a steady-state fluorescence method,and a new spectrofluorimetric method for the determination of puerarin in the aqueous solution in the presence of β-CD is developed.
采用稳态荧光法研究了β-环糊精对药物葛根素的荧光增敏作用,建立了水相中高灵敏度测定葛根素的新方法,其线性范围为0~3。
6) Fluorescence spectrometry
荧光光谱法
1.
Determination of Capsaicin Concentration in Rat Tissues by Fluorescence Spectrometry;
荧光光谱法测定大鼠组织中辣椒碱的浓度
2.
Determination of Anthracene and Pyrene in Non-Aqueous System by Fluorescence Spectrometry
荧光光谱法检测非水体系中蒽和芘
3.
0, the inclusive complexation of 5-(4-nitro phenyl)-10,15,20-tris-phenyl porphyrin (o-NTPP) with α-cyclodextrin (α-CD), β-CD, heptakis (2,3,6-tri-O-methyl)-β-CD (TM-β-CD), carboxymethyl-β-CD (CM-β-CD) and γ-CD has been examined by means of UV-vis, fluorescence spectrometry and 1HNMR technique.
在中性磷酸盐缓冲溶液中,以紫外-可见分光光度法、荧光光谱法和1HNMR法研究了一种人工合成的非水溶性卟啉5-邻硝基苯-10,15,20-三苯基卟啉(简称o-NTPP)与3种母体环糊精α-CD、β-CD、γ-CD和β-CD的两种衍生物2,3,6-三-甲氧基-β-CD(TM-β-CD)、羧甲基-β-CD(CM-β-CD)之间相互作用形成的超分子体系,结果表明o-NTPP与TM-β-CD形成了1∶2的包结物,而与其它4种环糊精均形成1∶1的包结物。
补充资料:胶束增敏荧光法
分子式:
CAS号:
性质:荧光体系中引入表面活性剂,利用其胶束的增溶、增稳,特别是增敏作用而建立的荧光分析法。表面活性剂胶束为荧光物质提供的保护性微环境,减小了分子间碰撞失活和其他猝灭作用,使荧光强度提高,从而使测量灵敏度也显著提高。
CAS号:
性质:荧光体系中引入表面活性剂,利用其胶束的增溶、增稳,特别是增敏作用而建立的荧光分析法。表面活性剂胶束为荧光物质提供的保护性微环境,减小了分子间碰撞失活和其他猝灭作用,使荧光强度提高,从而使测量灵敏度也显著提高。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条