Layer-by-layer self-assembly of supramolecular and biomolecular films

Reviews in Molecular Biotechnology Pub Date : 2002-03-01 DOI:10.1016/S1389-0352(01)00049-6

Tim Salditt , Ulrich S Schubert

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引用次数: 28

Abstract

In this paper, we give a short account on recent studies of layer-by-layer self-assembly of supramolecular and biomolecular films. Such films are built up from layers of macro-ions with opposing charge. A simple film can be obtained by alternating the adsorption of two components: a flexible, synthetic polycation chains and a supramolecular or biomolecular moiety. We focus on three examples, in which the second component consists either of a supramolecular metal–organic complex (MOC), a nucleic acid, or a biological membrane patch (purple membrane). While the flexible polycation chains (as well as eventual annealing layers) ensure a uniform build-up of the chain, the second macromolecular component may be used to functionalize the films. The combination of layer-by-layer self-assembly and biotechnologically relevant macromolecules may lead to new devices or biomaterial applications. To this end, precise studies of the deposition process and the film structure are needed. Here, we focus on interface sensitive scattering techniques for the structural analysis.

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超分子和生物分子膜的逐层自组装

本文简要介绍了近年来超分子膜和生物分子膜逐层自组装的研究进展。这种薄膜是由带相反电荷的巨离子层构成的。通过交替吸附两种组分:柔性的合成多阳离子链和超分子或生物分子部分，可以获得简单的膜。我们关注三个例子，其中第二组分由超分子金属有机复合物(MOC)、核酸或生物膜斑块(紫色膜)组成。虽然柔性多阳离子链(以及最终的退火层)确保了链的均匀构建，但第二种大分子成分可用于使膜功能化。逐层自组装和生物技术相关大分子的结合可能会导致新的设备或生物材料的应用。为此，需要对沉积过程和薄膜结构进行精确的研究。在这里，我们着重于界面敏感散射技术的结构分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reviews in Molecular Biotechnology

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