TY - Jour A2 - Ray，Paresh Chandra Au - Premathilaka，Ruwanthi W. Au - Liyanageera，Nalinda D. Py - 2019 Da - 2019/07/01 Ti - 氟化物在饮用水和纳米技术方法中消除过量氟化物SP - 2192383 VL- 2019年AB - 由于氟化的长期曝光而导致健康危害的认识导致研究人员寻求更具创新性的策略，以消除饮用水中过量的氟化物。天然和人为源污染饮用水中的氟化物化学品，主要是人类氟化物的原因。因此，发展可持续的缓解方法至关重要。在许多新出现的偏氟化技术中，由于其高效率，纳米技术方法脱颖而出，因此与许多领域一样，与其他常规的吸附剂和方法相比，在水中过量除去水中的纳米技术。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. SN - 1687-9503 UR - https://doi.org/10.1155/2019/2192383 DO - 10.1155/2019/2192383 JF - Journal of Nanotechnology PB - Hindawi KW - ER -