从电子废物中回收金属的生物技术方法。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Neelakanta Sarvashiva Kiran, Chandrashekar Yashaswini, Ankita Chatterjee, Maulin P Shah
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引用次数: 0

摘要

在露天垃圾填埋场处置电子废物(EW)对环境造成了多种有毒影响。电子废物沉积释放到环境中的有害金属成分会对生物系统造成危害。近年来,全球各地对电子废物管理进行了广泛研究。尽管在从废水中提取、循环利用和回收重金属方面采用了多种工艺,但大多数工艺在回收贵金属方面效果不佳。为了从电子废物中有效提取贵金属,人们采用了各种化学工艺。虽然这些技术易于处理且速度快,但化学浸出也会对环境造成不利影响。而生物方法则可以高效、环保地回收贵金属。因此,资源回收和修复可以同时进行。生物技术方法为从电子废物中回收金属提供了可持续的高效解决方案,是传统方法的可行替代方案。这一领域的不断进步为应对日益严峻的电子废物挑战带来了巨大希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biotechnological Approaches for Metal Recovery from Electronic Wastes.

The disposal of electronic waste (EW) in open landfills has caused several toxic environmental effects. The harmful metallic components released in the environment due to deposition of EW act as hazards for living systems. EW management has been widely studied in recent days across the world. Though, several processes are implemented in extraction, recycling and recovery of heavy metals from the EW, most of them are not effective in recovering the precious metals. Various chemical processes are executed for efficient extraction of precious metals from e-wastes. Though the techniques are easy to process and rapid, however, the chemical leaching also has detrimental environmental consequences. Biological approaches, on the other hand, solves the purpose for efficient and environmentally friendly recovery of precious metals. Thus, both resource recovery as well as remediation can be targeted simultaneously. Biotechnological methods offer sustainable and efficient solutions for metal recovery from electronic wastes, presenting a viable alternative to traditional methods. Continued advancements in this field hold significant promise for addressing the growing e-waste challenge.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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