分子印迹技术

分子印迹技术选择吸附去除水中Cu（Ⅱ）离子的研究

Molecular imprinting technique for selective adsorption of Cu (ⅱ) in water

本文利用分子印迹技术分别制备铜（II）离子和苯胺的分子印迹聚合物，并利用它们分别选择吸附去除水中铜（II）离子和苯胺。

This paper aimed to remove Cu ( II ) and aniline in water by molecular imprinting technique .

所以，通过分子印迹技术制备TiO2纳米粒子，以期提高TiO2选择性吸附和光催化降解目标污染物的能力。

Therefore , the TiO2 was prepared by molecular imprinting technique in order to enhance its selective adsorption and photocatalytic ability towards the target contaminants .

分子印迹技术（molecularimprintingtechnology，MIT）是在仿生科学和模拟自然界中酶-底物及受体-抗体作用的基础之上发展起来的一项技术。

Molecular imprinting technique ( MIT ) is a technology developed on the basis of the bionic science , as well as the simulation of enzyme-substrate and antigen-antibody interactions in the nature .

分子印迹技术（MIT）是一种通过在模板分子周围空间内制备三维网状高分子印迹聚合物的方法。

Molecular imprinting technique ( MIT ) is a synthetic approach for the preparation of molecular imprinted polymers ( MIPs ) in which a three-dimensional polymeric matrix around a template molecule is created .

随着分子印迹技术的发展，分子印迹聚合物膜（MIM）的开发应用成为最具吸引力的课题之一。

With the development of molecular imprinting technology ( MIT ), the development and application of molecularly imprinted polymer membranes ( MIM ) have become one of the most attractive subjects .

在本论文中，分子印迹技术被应用于分离EGCG。

In this paper , a molecularly imprinted polymer ( MIP ) was prepared with EGCG as the template molecule by the molecularly imprinting technique to separate EGCG from tea polyphenols .

近年来，分子印迹技术在合成具有分子识别性能复合材料方面的研究取得很大的进展，这种方法所制备的材料被称为分子印迹聚合物（MIPs）。

In the past few years , molecular imprinting technique has been considered as a promising method to prepare materials with molecular recognition ability , named molecular imprinting polymers ( MIPs ) .

分子印迹技术在甾类物质识别和分析中的应用

The application of molecular imprinting technique in steroid recognition and analysis

分子印迹技术和荧光分析技术在爆炸物检测中的应用

Application of Molecular Imprinting and Fluorescence Analysis Techniques in Explosive Detection

基于硅胶表面修饰的分子印迹技术研究进展

Progress in Researches on Molecular Imprinting Polymers Based on Silica-gel Surface Modification

同时对分子印迹技术在结构类似物分离方面的应用作了简单介绍。

Meanwhile , the analog compound separations on MIP were also introduced .

分子印迹技术用于模拟酶及分子反应器的研究进展

Application of Molecular Imprinting Technology to Enzyme Mimics and Molecular Reaction Vessels

分子印迹技术在农药残留检测应用的研究进展

Applications of Molecular Imprinting Technique in the Detection of Pesticides

分子印迹技术在渔药残留测定中的应用

The Application of Molecular Imprint Technique in Analysis of Residual Fish Drugs

分子印迹技术在水质检测传感器领域的应用

Application of molecular imprinting technique in the sensor field of water quality detection

将分子印迹技术与膜制备技术结合应用能制备出具有识别功能的高分子膜。

Molecular imprinting membrane could be prepared by molecular imprinting and membrane technology .

分子印迹技术&一种新型的亲和分离技术

Molecular Imprinting Technique ── A New Affinity Separation Method

水相识别分子印迹技术

Molecular Recognition in Aqueous Media with Molecular Imprinting Technique

分子印迹技术在生物大分子分离识别中的应用

Separation and Recognition of Biomacromolecule by Molecular Imprinting Technique

分子印迹技术及其在生物化工领域的应用现状与展望

Molecular Imprinting Technology and its Applications in Biochemical Engineering

分子印迹技术研究正从以小分子为模板向生物大分子为模板发展。

The studies of molecular imprinting are transforming from small molecules to bio-macromolecules .

分子印迹技术在样品前处理中的应用

Application of Molecular Imprinting Technique in Sample Pretreatment

采用分子印迹技术构建电化学传感器界面的研究

Electrochemical Sensing Surface Fabricated by Molecular Imprinting Techniques

一种是利用分子印迹技术。

One way is using molecular imprinting technique .

采用分子印迹技术合成了吡哌酸分子印迹聚合物。

Molecularly imprinted polymer for pipemidic acid was prepared by a molecular imprinting technique .

分子印迹技术研究新进展

The Development of Research in Molecular Imprinting Technique

分子印迹技术来源于免疫学。

Molecular imprinting technique originated from immunology .

利用分子印迹技术，通过沉淀聚合方法合成了对4-氨基吡啶具有选择性结合能力的微球形分子模板聚合物。

The molecularly imprinted microspheres using 4 aminopyridine as template were prepared with precipitation polymerization .

基于表面分子印迹技术及相转化过程的双酚A电化学传感器

Electrochemical Sensors for Bisphenol A Based on Surface Molecularly Imprinting Technology and Phase Inversion Process