Nanotiterplates for combinatorial chemistry

Reviews in Molecular Biotechnology Pub Date : 2001-12-01 DOI:10.1016/S1389-0352(01)00035-6

Günter Mayer, Andreas Schober, J.Michael Köhler

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引用次数: 16

Abstract

Miniaturization has grown to be a driving force in modern chemical and biochemical laboratories. Combinatorial explosion demands for new pathways for the synthesis and screening of new substances which can act as leads in drug discovery. Highly parallelized automata that can handle the smallest amounts of substances are needed. However, the development is not always straightforward since new problems also arise in miniaturization, e.g. increasing importance of surface properties of utilized devices and evaporation of liquids. This paper reports on recent developments on the field of miniaturized reaction vessels called nanotiterplates. A survey on fabrication technologies as well as applications of nanotiterplates is given. Special emphasis is given to results of the development of an automaton for miniaturized synthesis and screening. Besides the mere fabrication of nanotiterplates with integrated microsieve bottom membranes, examples of applications in chemical synthesis and bio-assays are given. Further topics are the characterization and specific adaption of surface properties and investigations on the evaporation of solvents and measures for prevention.

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组合化学用纳米滴定板

小型化已成为现代化学和生化实验室发展的推动力。组合爆炸需要新的合成途径和新物质的筛选，这些新物质可以作为药物发现的先导。需要能够处理最少量物质的高度并行的自动机。然而，发展并不总是一帆风顺的，因为在小型化中也出现了新的问题，例如，所用设备的表面特性和液体蒸发的重要性日益增加。本文介绍了微型反应容器纳米滴定板的最新研究进展。综述了纳米滴定板的制备技术及其应用。特别强调了小型化合成和筛选自动机的发展结果。除了制备集成微筛底膜的纳米滴定板外，还列举了其在化学合成和生物检测中的应用实例。进一步的主题是表征和特定的适应表面性质和研究溶剂的蒸发和预防措施。

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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