1)  Terbium
胶束增敏荧光光度法
2)  micell
胶束
1.
Fluorescence Enhancement and Laser Behavior of Rhodamine 6G in Micell;
胶束中的若丹明6G荧光增强和激光行为
2.
Study on the micell of mPEG-PLA-paclitaxel block copolymer conjugates;
紫杉醇两亲性嵌段键合物胶束的研究
3.
This paper summarized the principle of micellar catalysis,reviewed its various applications in organic synthesis,and described the effects of different factors on the micellar catalysis.
概述了胶束催化作用的基本原理以及胶束催化在有机合成中的多方面应用。
3)  Micelle
胶束
1.
Preparation and in vitro characterization of ATRA loaded mPEG-PLA diblock copolymeric micelles;
维甲酸/聚乙二醇-聚乳酸二嵌段共聚物胶束的制备及其体外性质
2.
Preparation and characterization of N-octyl-N′-succinyl chitosan micelles;
N-正辛基-N′-琥珀酰基壳聚糖胶束的制备及特征研究
3.
Micelle-Sensitized Derivative Constant-Energy Synchron ous Spectrofluorometry for the Simultaneous Determination of Polycyclic Aromatic Hydrocarbon Mixture;
胶束增敏导数-恒能量同步荧光法同时测定多环芳烃混合物
4)  Micelles
胶束
1.
Study on the Mechanism of Energy Transfer between Acridine Orange and Rhodamine 6G in Micelles of Dodecyl Benzene Sodium Sulfonate;
十二烷基苯磺酸钠胶束中吖啶橙与罗丹明6G间的能量转移机理研究
2.
Rapid-Mixing Stopped-Flow Spectra Studies on Manganese Porphyrin Systems in the Micelles;
水相胶束中锰卟啉体系的停流谱研究
3.
The Effect of Surfactant Micelles on the Dissociation Constants and the Colour-changing Points and Ranges of Acid-base Indicators;
胶束对酸碱指示剂离解平衡和变色点及变色范围的影响
5)  micellar
胶束
1.
Study on the Spectrophotometric Determination of Trace Cyanide with Micellar Solubilization;
胶束增敏光度法测定微量氰化物的研究
2.
The determination of boron in Brine by micellar enhance dspectrophotometry has been studied in this text.
采用胶束增溶增敏姜黄素分光光度法对卤水中硼的测定进行了研究,利用OP胶束体系对有色络合物增溶及吸光增敏,改进了姜黄素法。
6)  Micellar-sensitized
胶束增敏
1.
Determination of Trace Hg(Ⅱ)by Micellar-sensitized Fluorescence Spectrophotometry with Separating and Enriching of Sulphydryl Cotton;
巯基棉分离富集-胶束增敏荧光分析法测定痕量汞
2.
Determination of trace Hg(Ⅱ) by Micellar-sensitized Fluorescence Spectrophotometry with Separating and Enriching of Sulphydryl Cotton;
巯基棉分离富集——胶束增敏荧光分析法测定痕量汞
参考词条
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。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。