Toxic effects of arsenic and its adsorption through thiolated cobalt doped silver nanomaterials from water resources

IF 1 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Digest Journal of Nanomaterials and Biostructures Pub Date : 2023-12-04 DOI:10.15251/djnb.2023.184.1339

M. Y. Yadgari, S. Subat, S. Rashid, S. Ullah, L. Li, M. A. Hassani, H. Emiliya, G. Rukh

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Abstract

Recently, the rapid increase in population and industrialization has been created a lot of problems to water resources around the world. Most of the world population are exposed directly or indirectly towards heavy metals (HMs) such as Arsenic (As) contamination and thus making the water resources unfit for drinking and other human purposes. The current study was planned to find the As adsorption potential of novel thiolated cobalt-doped silver nanoparticles (Co-Ag NPs) under various environmental setups. In present work the Co-Ag NPs of sizes (20–22 nm) were synthesized through co-precipitation process. Adsorption of As with Co-Ag NPs was tested in batch experiments with respect light, pH and competing anions. Overall, the Co-Ag NPs effectively adsorbed the As in presence of sunlight (100%) and neutral pH (>99%). The removal of As was maximum (>99%) at CoAg NPs:As ratio of < 0.5:1. Similarly, the synthesized Co-Ag NPs did not showed the goodadsorption efficiency in dark condition about (21.4%) and only (11.1%) uptake at low and high pH respectively. Results of the current study showed that Co-Ag NPs can efficiently adsorb the As and reduce to non-toxic form i.e. below the WHO standard limit (10 µg/L)in drinking water.

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水资源中砷的毒性效应及其通过硫醇化掺钴银纳米材料的吸附作用

近年来，人口的快速增长和工业化给世界各地的水资源带来了许多问题。世界上大多数人口直接或间接地暴露于砷等重金属污染中，从而使水资源不适合饮用和其他人类用途。目前的研究计划是发现新型硫代钴掺杂银纳米粒子(Co-Ag NPs)在不同环境设置下的As吸附势。本文采用共沉淀法合成了尺寸为20 ~ 22 nm的Co-Ag纳米粒子。在光照、pH和竞争阴离子条件下，对Co-Ag NPs吸附As进行了批量实验。总的来说，Co-Ag NPs在阳光下(100%)和中性pH下(>99%)都能有效吸附砷。当CoAg NPs:As比< 0.5:1时，As去除率最大(>99%)。同样，合成的Co-Ag NPs在黑暗条件下的吸附效率也不高，在低pH和高pH条件下的吸收率分别为21.4%和11.1%。目前的研究结果表明，Co-Ag NPs可以有效地吸附砷并还原为无毒形式，即低于世卫组织饮用水标准限值(10微克/升)。

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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