3) resin bead technique
树脂珠技术
4) Microfiltration-Macroporous resin method
微滤-大孔树脂法
5) Hyphenated Techniques
联用技术
1.
Application of High Performance Liquid Chromatography and Hyphenated Techniques in Analysis of Arsenic Species;
高效液相色谱及联用技术在砷形态分析中的应用
2.
Development of hydrophilic interaction chromatographic hyphenated techniques and their applications;
以亲水作用色谱为核心的液相色谱联用技术及其应用研究
3.
Study on the Speciation of Calcium and Magnesium in the Complex System by Hyphenated Techniques;
联用技术用于复杂体系中钙镁形态分析的研究
6) hyphenated technique
联用技术
1.
Since lead is a toxicity element in the biological and environmental systems,a review of the development of the extraction and hyphenated techniques for the speciation of lead in food and some other samples during the last two decades was presented in this paper.
文章重点概述了国内外近年来萃取技术和联用技术在食品等物质中铅形态分析上的应用进展。
2.
Metallothionein isoforms and sub-isoforms were characterized with a hyphenated technique of reversed-phase liquid chromatography (RPLC) coupled with electrospray ionization mass spectrometry (ESI-MS).
通过反相液相色谱(RPLC)与电喷雾电离质谱(ESI MS)的联用技术,对镉诱导金属硫蛋白标准物质MT 1和MT 2的结构进行表征分析。
3.
This paper mainly describes the development of speciation analysis in environmental, material and life scientific samples by the hyphenated technique of high performance liquid chromatography and inductively coupled plasma mass spectrometry (HPLC-ICP-MS).
介绍了高效液相色谱与电感耦合等离子体质谱 (HPLC ICP MS)联用技术在环境、材料和生命科学样品的元素形态分析中的研究进展 ,着重介绍该联用方法的接口技术及几种与ICP MS联用的主要色谱类型 ,阐述了几种样品预处理方法 ,并对样品引入系统、复杂基体分离和元素形态定量和结构分析等联用技术在元素形态分析中所面临的问题进行讨
补充资料:微滤
分子式:
CAS号:
性质:又称微孔过滤。以压力为推动力,过滤含有微粒的溶液的固体膜分离过程。所用的膜为孔径0.1~l0μm的多孔膜,操作静压差为0.01~0.2MPa,流速为4~400ml/(cm2·min·MPa),有效分离范围是直径0.1~10μm的粒子。当溶液通过微孔膜后,悬浮物(胶体、细菌)和粒径较大的微球被截留而被除去。微滤广泛用于电子、医药卫生、饮料、核能、精细化工、生物工程等领域,例如可用来进行细菌与血球等微粒与分子微团的分离。
CAS号:
性质:又称微孔过滤。以压力为推动力,过滤含有微粒的溶液的固体膜分离过程。所用的膜为孔径0.1~l0μm的多孔膜,操作静压差为0.01~0.2MPa,流速为4~400ml/(cm2·min·MPa),有效分离范围是直径0.1~10μm的粒子。当溶液通过微孔膜后,悬浮物(胶体、细菌)和粒径较大的微球被截留而被除去。微滤广泛用于电子、医药卫生、饮料、核能、精细化工、生物工程等领域,例如可用来进行细菌与血球等微粒与分子微团的分离。
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