扼要概述了非共价法制备分子模板聚合物的影响因素及控制措施。
Influence factor and control measure on the preparation of molecular template polymer by non-covalence method were reviewed concisely.
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.
实验表明,应用离子模板聚合技术可提高普通吸附树脂的吸附性能。
The results indicate that the ionic template technique can improve the adsorbability of the common adsorbents.
分子模板聚合物是采用分子模板技术制得的带结合功能团和空穴的刚性聚合物。
Molecular template polymers, possessing functional groups and spatial cavities, are prepared by molecular template technique.
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.
制得的棒状聚合物经研磨、过筛后,采用平衡结合方法评价了该模板聚合物的结合特性。
The bulk polymer obtained was ground up, sieved and investigated in equilibrium binding experiments to evaluate the binding characteristics of the 4 aminopyridine imprinted polymer.
底物选择性实验结果表明,与结构相似的化合物相比,4 -氨基吡啶球形分子模板聚合物对4 -氨基吡啶显示出强的选择性。
The substrate selectivity of the polymer was investigated. The results showed that the imprinted polymer exhibited a high affinity for 4 aminopyridine among the tested compounds.
底物选择性实验结果表明,与结构相似的化合物相比,4 -氨基吡啶球形分子模板聚合物对4 -氨基吡啶显示出强的选择性。
The substrate selectivity of the polymer was investigated. The results showed that the imprinted polymer exhibited a high affinity for 4 aminopyridine among the tested compounds.
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