1) Micellar sensitization
胶束增敏作用
2) 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
3) micellar enhanced
胶束增敏
1.
Study on the Determination of Spironolactone by Micellar Enhanced Spetrofluorimetry;
胶束增敏荧光光度法测定螺内酯的研究
4) Micelle enhanced
胶束增敏
1.
Study on the Determination of Medroxyprogesterone Acetate by Micelle Enhanced Ultraviolet Spectrophotometry;
胶束增敏紫外吸光光度法测定安宫黄体酮的研究
5) Sensitization
[英][,sensitai'zeiʃən] [美][,sɛnsətə'zeʃən]
增敏作用
1.
Sensitization of Calcium Ion to the Polarographic Adsorptive Wave of Rare Earth Elements——Ⅲ.2,2' -Dibromo-4-fluoro-chlorophosphonazo System;
稀土(Ⅲ)-2,2′-二溴-4-氟-偶氮氯膦络合物极谱行为的研究——Ⅲ.钙离子对稀土-2,2′-二溴-4-氟-偶氮氯膦体系极谱吸附波增敏作用
2.
The results show that cationic surfactant CPB has an sensitization to the fluoride ion selective electrode,and can decrease the lower limit of detection of electrode,shorten the response .
发现阳离子表面活性剂CPB对氟离子选择电极有较明显的增敏作用。
3.
And points out that the research direction in future is to identify the sensitization mechanism of radiotherapy and to develop the multiplecenter experiment to confirm the effect of radiotherapy sensitization.
本文就近年来光敏剂与放疗结合的相关临床和实验研究的进展情况做了较详细的阐述,并明确指出其放疗增敏机制,及开展多中心试验研究以证实其放疗增敏作用是今后的研究方向。
6) Enhancement effect
增敏作用
1.
Enhancement effect of emulsifier octyl-phenyl polyglycol ether (OP) on the determination of copper by differential potentiometric stripping analysis is described.
10mol/L HNO_3介质中,乳化剂OP能使铜的溶出峰高度增大,增敏作用发生在溶出阶段。
补充资料:胶束
分子式:
CAS号:
性质:又称胶团。表面活性剂分子或离子在溶液中的胶体聚集物(aggregate)。表面活性剂在溶液中的浓度大于临界胶束浓度时便形成聚集物。胶束形成是一个平衡过程,即胶束是与非聚集表面活性剂分子(monomer)处于平衡状态,即单体浓度到临界胶束浓度是基本处于恒定。胶束在表面活性剂浓度不大时一般是球状,随着浓度的增大成为棒状或层状等。
CAS号:
性质:又称胶团。表面活性剂分子或离子在溶液中的胶体聚集物(aggregate)。表面活性剂在溶液中的浓度大于临界胶束浓度时便形成聚集物。胶束形成是一个平衡过程,即胶束是与非聚集表面活性剂分子(monomer)处于平衡状态,即单体浓度到临界胶束浓度是基本处于恒定。胶束在表面活性剂浓度不大时一般是球状,随着浓度的增大成为棒状或层状等。
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