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.
这种方法运用简化的质谱仪来分析样本。质谱仪可用于分离和识别化合物中的分子。
The analysis method USES a simplified version of a mass spectrometer, a tool that can be used to separate and identify molecules in compounds.
重点介绍了分子印迹技术在环境雌激素的识别和分析中所取得的进展。
In this manuscript, the application of this novel technique on the analysis of environmental estrogens is critically reviewed and the future appcication of this technique also discussed.
椭偏光学生物传感器是识别和检测蛋白质的一种新型的高通量、快速生物分子分析技术。
A protein microarray biosensor based on imaging ellipsometry has been developed as a high-throughput and fast technique for protein 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.
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.
在研究中比较了不同识别分子与靶序列DNA结合的强弱,发现双萘酰亚胺衍生物4对此序列DNA具有高亲合性的结合,并分析了识别分子与DNA复合物的碎裂机理以及结合模式。
It revealed that imide derivative 4, a potent binder of HIV-1 DNA, had the higher binding affinity with the duplex DNA among six DNA-recognizing mole-cules.
在研究中比较了不同识别分子与靶序列DNA结合的强弱,发现双萘酰亚胺衍生物4对此序列DNA具有高亲合性的结合,并分析了识别分子与DNA复合物的碎裂机理以及结合模式。
It revealed that imide derivative 4, a potent binder of HIV-1 DNA, had the higher binding affinity with the duplex DNA among six DNA-recognizing mole-cules.
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