生物技术合成功能纳米材料。

Biotechnological synthesis of functional nanomaterials.

机构信息

School of Earth, Atmospheric and Environmental Sciences and Williamson Research Centre for Molecular Environmental Science, University of Manchester, Manchester M13 9PL, UK.

出版信息

Curr Opin Biotechnol. 2011 Aug;22(4):509-15. doi: 10.1016/j.copbio.2011.06.008.

DOI:10.1016/j.copbio.2011.06.008

PMID:21742483

Abstract

Biological systems, especially those using microorganisms, have the potential to offer cheap, scalable and highly tunable green synthetic routes for the production of the latest generation of nanomaterials. Recent advances in the biotechnological synthesis of functional nano-scale materials are described. These nanomaterials range from catalysts to novel inorganic antimicrobials, nanomagnets, remediation agents and quantum dots for electronic and optical devices. Where possible, the roles of key biological macromolecules in controlling production of the nanomaterials are highlighted, and also technological limitations that must be addressed for widespread implementation are discussed.

摘要

生物系统，特别是那些利用微生物的系统，具有提供廉价、可扩展和高度可调的绿色合成路线的潜力，用于生产最新一代的纳米材料。本文描述了功能纳米级材料的生物技术合成的最新进展。这些纳米材料的范围从催化剂到新型无机抗菌剂、纳米磁铁、修复剂和用于电子和光学器件的量子点。在可能的情况下，突出了关键生物大分子在控制纳米材料生产中的作用，并讨论了必须解决的技术限制，以实现广泛应用。

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生物技术合成功能纳米材料。

Biotechnological synthesis of functional nanomaterials.

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生物技术合成功能纳米材料。

Biotechnological synthesis of functional nanomaterials.

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