分子印迹中的化学计量学非共价相互作用。

G Wulff, K Knorr
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引用次数: 122

摘要

本文综述了结合位点单体在分子印迹过程中的作用。特别强调了化学计量非共价相互作用的新进展。在化学计量学非共价相互作用中,模板和结合位点单体以1:1的摩尔比几乎完全结合在一起。这只有在关联常数相当高(Kass > 900 M(-1))时才有可能。在分子印迹中使用这种类型的相互作用,不需要多余的结合位点,并且结合位点仅位于印迹腔内。由于所有空腔都可以重新加载,这些聚合物显示出高容量(例如,用于制备应用),特别适合于合成催化活性印迹聚合物。讨论了基于脒(和胍)的结合位点相互作用,多重氢键,电荷转移相互作用和主-客体包合。详细描述了对潜在结合反应的系统研究。对于低分子量模型物质,可以方便地通过核磁共振波谱等方法研究其缔合的热力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stoichiometric noncovalent interaction in molecular imprinting.

In this review article the function of the binding site monomers in the molecular imprinting procedure is discussed. Especially, new developments towards stoichiometric noncovalent interactions are highlighted. In stoichiometric noncovalent interactions template and binding site monomer in an 1:1 molar ratio are nearly completely bound to each other. This is only possible if the association constants are considerably high (Kass > 900 M(-1)). Using this type of interaction in molecular imprinting no excess of binding sites is necessary and binding sites are only located inside the imprinted cavity. Since all cavities can be reloaded these polymers show high capacity (e.g., for preparative application) and are especially suited for the synthesis of catalytically active imprinted polymers. Discussed are binding site interactions based on amidines (and guanidines), multiple hydrogen bonding, charge-transfer interactions, and host-guest inclusion. The systematic investigation of the underlying binding reaction is described in detail. With low-molecular weight model substances the thermodynamics of the association can be conveniently investigated, e.g., by NMR spectroscopy.

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