Ecofriendly Application of Nanomaterials: Nanobioremediation

Journal of Nanoparticles Pub Date : 2014-06-19 DOI:10.1155/2014/431787

Rizwan, Man Singh, C. Mitra, Roshan K. Morve

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引用次数: 113

Abstract

Nanomaterials exhibit unique physical and chemical properties and, hence, they have received much attention from scientists and researchers in different areas of environmental sciences, specifically in bioremediation. Bioremediation provides a good clean-up strategy for some types of waste, but as it is expected, it will not be useful for all. For example, bioremediation may not provide a feasible strategy at sites with high concentrations of chemicals that are toxic to most microorganisms. These include heavy metals and salt. Further, the advancement in science and technology has increased standard of living which directly or indirectly contributes to the increase in waste and toxic material. Therefore, the remediation of contaminants by use of existing technology is not effective and efficient in cleaning up the environment. Hence, nanomaterials may be applied for bioremediation, which will not only have less toxic effect on microorganisms, but will also improve the microbial activity of the specific waste and toxic material which will reduce the overall time consumption as well as reduce the overall cost. In this paper we have briefly summarized the major types of nanomaterials that have been used so far in bioremediation of waste and toxic materials.

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纳米材料的环保应用:纳米生物修复

纳米材料表现出独特的物理和化学性质，因此受到了环境科学不同领域，特别是生物修复领域的科学家和研究人员的广泛关注。生物修复为某些类型的废物提供了良好的清理策略，但正如预期的那样，它不会对所有类型的废物都有用。例如，在对大多数微生物有毒的高浓度化学品场所，生物修复可能不是一种可行的策略。这些物质包括重金属和盐。此外，科学技术的进步提高了生活水平，这直接或间接地导致了废物和有毒物质的增加。因此，利用现有技术对污染物进行修复，在净化环境方面效果不佳，效率不高。因此，纳米材料可以应用于生物修复，不仅可以减少对微生物的毒性作用，而且可以提高特定废物和有毒物质的微生物活性，从而减少总体时间消耗，降低总体成本。本文对纳米材料在废物和有毒物质生物修复中的主要应用进行了综述。

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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Journal of Nanoparticles

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