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Recognition and Sequestration of Toxic Inorganic Water Pollutants with Hydrolytically Stable Metal-Organic Frameworks
The Chemical Record ( IF 7.0 ) Pub Date : 2021-06-17 , DOI: 10.1002/tcr.202100127 Subhajit Dutta 1 , Sumanta Let 1 , Shivani Sharma 1 , Debanjan Mahato 1 , Sujit K Ghosh 1
The Chemical Record ( IF 7.0 ) Pub Date : 2021-06-17 , DOI: 10.1002/tcr.202100127 Subhajit Dutta 1 , Sumanta Let 1 , Shivani Sharma 1 , Debanjan Mahato 1 , Sujit K Ghosh 1
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Water pollution and crisis of freshwater is one of the most alarming concern globally, which threatens the development and survival of living beings. Recycling of contaminated water has been the prime demand of 21st century as the area of contamination in natural waterbodies increasing rapidly worldwide. Detoxification and purification of wastewater via adsorptive removal technology has been proven to be more efficient because of it's simplicity, lesser complexity and cost-effectiveness. As the most rapid-growing division of coordination chemistry, porous coordination polymers (PCPs) or metal−organic frameworks (MOFs) with the liberty of crafting tailorable porous architecture and presence of numerous functional sites have become quintessential for recognition and sequestration of water pollutants. This personal account intends to highlight our recent contributions in the field of sensing and sequestration of toxic aquatic inorganic pollutants by functionalized water stable MOFs.
中文翻译:
具有水解稳定的金属-有机骨架的有毒无机水污染物的识别和封存
水污染和淡水危机是全球最令人担忧的问题之一,威胁着生物的发展和生存。回收受污染的水一直是 21世纪的主要需求世纪以来,天然水体的污染面积在全球范围内迅速增加。通过吸附去除技术对废水进行解毒和净化已被证明更有效,因为它简单、复杂且具有成本效益。作为配位化学中发展最快的部门,多孔配位聚合物(PCP)或金属有机骨架(MOF)可以自由地制作可定制的多孔结构和众多功能位点,已成为识别和隔离水污染物的典型。这个个人账户旨在强调我们最近在通过功能化水稳定 MOF 传感和隔离有毒水生无机污染物领域的贡献。
更新日期:2021-07-12
中文翻译:
具有水解稳定的金属-有机骨架的有毒无机水污染物的识别和封存
水污染和淡水危机是全球最令人担忧的问题之一,威胁着生物的发展和生存。回收受污染的水一直是 21世纪的主要需求世纪以来,天然水体的污染面积在全球范围内迅速增加。通过吸附去除技术对废水进行解毒和净化已被证明更有效,因为它简单、复杂且具有成本效益。作为配位化学中发展最快的部门,多孔配位聚合物(PCP)或金属有机骨架(MOF)可以自由地制作可定制的多孔结构和众多功能位点,已成为识别和隔离水污染物的典型。这个个人账户旨在强调我们最近在通过功能化水稳定 MOF 传感和隔离有毒水生无机污染物领域的贡献。
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