Application of molecular imprinting SPE in sample pretreatment.
分子印迹spe在样品前处理中的应用。
Problems existing in molecular imprinting technique are pointed out also.
最后指出分子印迹技术目前存在的问题。
The molecular imprinting process has many applications beyond trapping viruses.
分子印迹除了捕获病毒还有其他很多用途。
The recent development of molecular imprinting technology based on cyclodextrins was reviewed.
本文综述了近年来基于环糊精的分子印迹技术的研究进展。
The principle and application of molecular imprinting to chiral separation in CEC were reviewed.
综述分子印记技术的基本原理及其在CEC中的应用模式和实例。
The paper studied a method of preparing noncovalent molecular imprinting polymer(MIP) in polar solvent.
本文对极性溶剂中非共价型分子烙印聚合物的制备条件进行了研究。
In this article, the synthesis of Molecular Imprinting Polymer and the mechanism of chiral separation are discussed.
简要介绍了该技术的合成过程、手性拆分机理及其在手性药物拆分中的应用及优点。
The molecular imprinting technique is a reliable technique for the preparation of materials of predetermined selectivity.
分子烙印技术是一种能制备预定选择性分离介质的技术。
In this work, we present a novel method for studying the molecular imprinting process in precipitation polymerization systems.
在这篇论文中,我们展示了一种新方法来研究沉淀聚合系统中的分子印记过程。
This paper also introduces a novel separation technology named molecular imprinting technology which has a specific selectivity.
文中还介绍了一门新兴分离技术即分子印迹技术,它在分子识别中有着特殊的选择性。
Molecular imprinting is an emerging technique for the preparation of polymers possessing highly selective recognition properties.
分子烙印技术是制备具有选择性分子识别能力的聚合物的新兴技术。
As a technique for the synthesis of artificial receptors, molecular imprinting strategy has achieved great advances in recent years.
作为一种人工受体合成技术,分子印迹方法近年来取得了长足的进展。
Molecular imprinting is a technique to prepare polymers with recognition sites having a predetermined selectivity for given molecules.
分子印迹技术是指一种可以合成对指定分子具有专一性识别位点的聚合物的技术。
Molecular imprinting technique is a polymerizing technique to produce molecular recognition materials with high selectivity and affinity.
分子烙印技术是一种制备具有特定选择性和亲合性的分子识别材料的技术。
In this paper, the essential theories, methods, development tendency, achievements and prospect of molecular imprinting technique are reviewed.
本文就分子印迹技术的基本原理、基本方法、发展趋势、研究成果及应用前景进行了综述。
Molecular imprinting is a novel technique of preparing molecularly imprinted polymers, which can specifically recognize the imprinted molecules.
分子印迹是制备具有分子特异识别功能聚合物的一种技术。
Molecular imprinting technique (MIT) is a technique to prepare polymers with recognition sites having a predetermined selectivity for given molecules.
分子印迹是指一种可以合成对指定分子具有专一性识别位点的聚合物的技术。
From small molecules to biomacromolecules, from organic phase to aqueous media, the application field expands with the development of molecular imprinting technique.
从小分子到生物大分子、从有机相到水相,反映了分子印迹技术的发展趋势。
Polymers prepared by molecular imprinting have received much attention in recent years for separations, analysis, immunoassays, catalysis, enzyme mimics and biosensor.
近年来,分子印迹法制得的聚合物在分离、分析、免疫测定、催化、模拟酶及生物传感器等方面的应用引起人们的广泛关注。
A cinchonine imprinted chiral monolithic column was prepared for the separation of the diastereomers of cinchonine and cinchonidine by in situ molecular imprinting technique.
采用原位分子印迹技术,单步制备了一种辛可宁印迹的手性整体柱。
The article review molecular imprinting theory, preparation technique of molecular imprinting polymers, and its new preparative ways and introduces its applications in detail.
评述了分子印迹原理、分子印迹聚合物微球的制备技术以及一些制备新方法,并对其应用领域作了较为详细地介绍。
Molecular imprinting was an effective means of encoding information such as molecular shapes and molecular functions in the field of macromolecular material on a molecular scale.
分子印迹技术能有效的将分子形状和功能等分子信息储存在聚合物中。
It has been reported recently that molecular imprinting polymers have a good foreground applied in solid phase extraction, enzyme-mimicking catalyzer, chemical-bionic sensor and so on.
近来,分子印迹聚合物已在固相萃取、模拟酶催化、化学仿生传感器等领域展现了良好的应用前景。
The principle of MIT and some applications of it in biomimetic sensors are reviewed in this paper, and the trend of the molecular imprinting-based biomimetic sensors is also discussed.
综述了分子印迹技术的基本原理及其在仿生传感器方面的应用研究现状,并对分子印迹仿生传感器的发展前景进行了评述。
This paper reviewed the principle, preparation and characteristics of molecular imprinting polymer and its application in separation of enantiomers, antibody mimics, enzyme mimics and biosensor.
综述分子印迹原理、分子印迹聚合物的制备和特性,以及分子印迹聚合物在对映体拆分、人工抗体、模拟酶、以及分子器件方面的应用。
The results show the importance of solvent choice in molecular imprinting and demonstrate that computational quantum chemistry analysis can assist in choosing a solvent for the synthesis of MIPs.
上述结果表明,溶剂对于分子印迹聚合物的分子识别性能具有重要的影响,而计算量子化学分析对于分子印迹介质合成时的溶剂体系选取和优化具有很好的指导作用。
The results show the importance of solvent choice in molecular imprinting and demonstrate that computational quantum chemistry analysis can assist in choosing a solvent for the synthesis of MIPs.
上述结果表明,溶剂对于分子印迹聚合物的分子识别性能具有重要的影响,而计算量子化学分析对于分子印迹介质合成时的溶剂体系选取和优化具有很好的指导作用。
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