本发明制备的分子印迹聚合物选择性高、特异性高,能耐不良环境,并能与ELISA联用。
The molecularly imprinted polymer prepared by the method has high selectivity and high specificity, can resist bad environments and can be coupled with ELISA.
与常规和传统的分离和分析介质相比,基于分子识别的分子印迹聚合物的突出特点是对被分离物或分析物具有高度的选择性。
Compared with the routine and traditional medium used for separation and analysis, the outstanding character of MIPs based on molecular recognition is its excellent selectivity to the substrates.
本论文以分子印迹理论为指导,以不同的分子为模板合成了不同的分子印迹聚合物,系统研究了分子印迹聚合物的几个方面。
With the direction of theory of molecularly imprinted polymer, this paper synthesize different polymer with template molecular and study several field of molecularly imprinted polymer in system.
考察了聚合反应条件,如溶剂种类、聚合温度、模板浓度、引发剂用量、转速、预聚合时间等对分子印迹聚合物微球特性的影响。
The effects of reaction conditions were studied, including the kind of solvent, polymerization temperature, the concentration of template and initiator, rotational speed and pre-polymerization time.
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。
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.
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。
Molecular imprinting technique (MIT) is a technique to prepare polymers with recognition sites having a predetermined selectivity for given molecules.
本文研究工作第二部分研究了分子印迹聚合物膜的制备和膜传输性能。
This thesis's second part studied the preparation and permeation properties of MIP membrane.
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 is a technique to prepare polymers with recognition sites having a predetermined selectivity for given molecules.
采用紫外光引发原位聚合的方法制备了具有支撑膜的邻香草醛分子印迹聚合物膜。
Using o-vanillin as template molecule, molecularly imprinted polymer membranes with sup- porting membrane were synthesized through in-situ polymerization by UV irradiation.
分子印迹聚合物在分离分析、仿生传感器和模拟酶催化等领域将具有重要的应用前景。
Molecularly imprinted polymers will possess promising application future in the separation and analysis, biomimetic sensors and enzyme mimics catalysis.
分子印迹聚合物纳米管膜在化学分离中具有高亲和性和高选择性的优点。
The advantages of the high affinity and selectivity of the molecular imprinted polymer nanotube membrane in chemical separation are also discussed.
分子印迹聚合物研究的关键是其选择性机理的研究。
The key of understanding for molecularly imprinted polymer is the research on the selective mechanism.
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。
Polymers prepared by molecular imprinting have received much attention in recent years for separations, analysis, immunoassays, catalysis, enzyme mimics and biosensor.
该文较系统地介绍和综述了分子印迹聚合物的制备、选择性结合特性及应用等方面的研究进展。
The preparation of molecular imprinted polymer, its selective binding characteristics and the applications have been introduced and reviewed in this thesis.
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 is a novel technique of preparing molecularly imprinted polymers, which can specifically recognize the imprinted molecules.
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。
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.
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。
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.
实验结果表明用表面引发原子转移自由基聚合在多孔氧化铝膜内部形成分子印迹聚合物纳米管是可行的。
The experimental results prove that atom transfer radical polymerization route works well in the formation of molecularly imprinted polymer nanotubes within porous alumina template.
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。
The article review molecular imprinting theory, preparation technique of molecular imprinting polymers, and its new preparative ways and introduces its applications in detail.
采用分子印迹技术合成了对药物氟哌酸有高度选择性的模板聚合物。
The selective binding characteristics of the template polymer was evaluated by Scatchard analysis.
目的阐述农药抑芽丹分子印迹聚合物的识别机制,并分析聚合物的识别特性。
Objective To demonstrate the mechanism of molecularly imprinted polymer of maleic hydrazide(MH) and evaluate the adsorptive specificity and selectivity.
本发明涉及化学聚合物的制备方法,蛋白质大分子印迹聚乙烯基吡咯烷酮的制备方法。
The invention relates to a method for preparing chemical polymers, particularly relates to a method for preparing protein macromolecule imprinted periston.
本发明涉及一种蛋白质分子印迹整体聚合物的制备方法。
The invention relates to a method for preparing a protein molecular engram block polymer.
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.
在存在印迹分子的条件下,通过模板聚合可以构造出具有选择性识别位点的印迹聚合物。
In this paper, preparation methods for imprinted polymers with selective recognition sites synthesized by template polymerization are introduced.
而将制备好的分子印迹材料填充到聚合物中制备填充膜的技术则克服了这些缺点。
Currently, drawbacks like complication and poor reproducibility of preparation technology have limited the broadly application of traditional molecularly imprinting membrane technology.
另外,在印迹柱上分离了与萘普生结构相似的布洛芬、酮洛芬,这进一步证实了制得的-萘普生分子印迹聚合物的高度专一识别性能。
The effects of concentration of acetic acid in the mobile phase was studied and the polymers were able to separate naproxen from the structurally similar molecular such as ibuprofen and ketoprofen .
本发 明还提供了糖类化合物作为功能单体在制备细菌毒素分子印迹聚合物中的应用。
The invention also discloses the application of a glucide compound as a functional monomer in preparing the bacterial toxin molecularly imprinted polymer.
本发 明还提供了糖类化合物作为功能单体在制备细菌毒素分子印迹聚合物中的应用。
The invention also discloses the application of a glucide compound as a functional monomer in preparing the bacterial toxin molecularly imprinted polymer.
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