饮用水中的氟化物和消除过量氟化物的纳米技术方法

IF 3.9 Q2 NANOSCIENCE & NANOTECHNOLOGY
Ruwanthi W. Premathilaka, N. D. Liyanagedera
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引用次数: 21

摘要

对长期接触氟化物造成的健康危害的认识日益提高,促使研究人员寻求更有创新性的战略,以消除饮用水中过量的氟化物。天然和人为来源的含氟化学品污染饮用水,这是人类摄入氟化物的主要原因。因此,制定可持续的缓解办法至关重要。在许多新兴的除氟技术中,纳米技术方法因其高效率而引人注目,因此,与许多领域一样,与其他传统吸附剂和工艺相比,用于去除水中过量氟化物的纳米技术正在取得进展。本文重点介绍了一些先进的和最新的纳米吸附剂,包括它们的优点和缺点(例如碳纳米管、LDH、石墨烯基纳米材料和磁性纳米材料)和其他涉及纳米技术的工艺,同时讨论了氟化物的水化学基本方面和导致水氟化物污染的地质条件。考虑到调查中的所有发现,很明显,开发更可持续的技术是必不可少的,而不是单独进行批量实验。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fluoride in Drinking Water and Nanotechnological Approaches for Eliminating Excess Fluoride
Arising awareness of health hazards due to long-term exposure of fluoride has led researchers to seek for more innovative strategies to eliminate excess fluoride in drinking water. Fluoride-bearing chemicals in both natural and anthropogenic sources contaminate drinking water, which mainly cause for human fluoride ingestion. Hence, developing sustainable approaches toward alleviation is essential. Among many emerging techniques of defluoridation, nanotechnological approaches stand out owing to its high efficiency, and hence, as in many areas, nanotechnology for excess fluoride removal in water is gaining ground compared to other conventional adsorbents and process. The present review focuses on some of the advanced and recent nanoadsorbents including their strengths and shortcomings (e.g., CNT, LDH, graphene-based nanomaterials, and magnetic nanomaterials) and other processes involving nanotechnology while discussing basic aspects of hydrochemistry of fluoride and geological conditions leading for water fluoride contamination. Considering all the findings in survey, it is evident that developing more sustainable techniques is essential rather than conducting batch-type experiments solely.
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来源期刊
Journal of Nanotechnology
Journal of Nanotechnology NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
5.50
自引率
2.40%
发文量
25
审稿时长
13 weeks
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