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Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review

Elevated levels of potentially toxic elements (PTEs) in aqueous environments have drawn attention recently due to their presence and toxicity to living beings. There have been numerous attempts to remove PTEs from aqueous media. The potential of metal–organic frameworks (MOFs) in removing PTEs from...

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Autores principales: Ramanayaka, Sammani, Vithanage, Meththika, Sarmah, Ajit, An, Taicheng, Kim, Ki-Hyun, Ok, Yong Sik
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9073907/
https://www.ncbi.nlm.nih.gov/pubmed/35529979
http://dx.doi.org/10.1039/c9ra06879a
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author Ramanayaka, Sammani
Vithanage, Meththika
Sarmah, Ajit
An, Taicheng
Kim, Ki-Hyun
Ok, Yong Sik
author_facet Ramanayaka, Sammani
Vithanage, Meththika
Sarmah, Ajit
An, Taicheng
Kim, Ki-Hyun
Ok, Yong Sik
author_sort Ramanayaka, Sammani
collection PubMed
description Elevated levels of potentially toxic elements (PTEs) in aqueous environments have drawn attention recently due to their presence and toxicity to living beings. There have been numerous attempts to remove PTEs from aqueous media. The potential of metal–organic frameworks (MOFs) in removing PTEs from aqueous media has been recognized due to their distinctive advantages (e.g., increased removal capability, large surface area, adjustable porosity, and recyclability). Because of the poor stability of MOFs in water, pre and post synthetic modification and functionalization of MOFs have also been developed for water treatment investigations. This review addresses the performance and mechanisms of PTE removal in various modified MOFs in detail. In order to compare the performance of MOFs, here we used partition coefficient (PC) instead of maximum adsorption capacity, which is sensitively influenced by initial loading concentrations. Therefore, the PC of each material was used to evaluate the adsorption performance of different MOFs and to compare with other sorbents. Furthermore, it discusses the scale-up issues and forthcoming pathway for the research and development needs of MOFs for effective PTE removal. This review further elucidates the main removal mechanisms of PTEs by MOFs. Commercial or domestic water treatment systems or water filters can utilize engineered MOFs to treat water by adsorptive removal. However, marketable products have yet to be investigated thoroughly due to limitations of the large-scale synthesis of MOFs.
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spelling pubmed-90739072022-05-06 Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review Ramanayaka, Sammani Vithanage, Meththika Sarmah, Ajit An, Taicheng Kim, Ki-Hyun Ok, Yong Sik RSC Adv Chemistry Elevated levels of potentially toxic elements (PTEs) in aqueous environments have drawn attention recently due to their presence and toxicity to living beings. There have been numerous attempts to remove PTEs from aqueous media. The potential of metal–organic frameworks (MOFs) in removing PTEs from aqueous media has been recognized due to their distinctive advantages (e.g., increased removal capability, large surface area, adjustable porosity, and recyclability). Because of the poor stability of MOFs in water, pre and post synthetic modification and functionalization of MOFs have also been developed for water treatment investigations. This review addresses the performance and mechanisms of PTE removal in various modified MOFs in detail. In order to compare the performance of MOFs, here we used partition coefficient (PC) instead of maximum adsorption capacity, which is sensitively influenced by initial loading concentrations. Therefore, the PC of each material was used to evaluate the adsorption performance of different MOFs and to compare with other sorbents. Furthermore, it discusses the scale-up issues and forthcoming pathway for the research and development needs of MOFs for effective PTE removal. This review further elucidates the main removal mechanisms of PTEs by MOFs. Commercial or domestic water treatment systems or water filters can utilize engineered MOFs to treat water by adsorptive removal. However, marketable products have yet to be investigated thoroughly due to limitations of the large-scale synthesis of MOFs. The Royal Society of Chemistry 2019-10-24 /pmc/articles/PMC9073907/ /pubmed/35529979 http://dx.doi.org/10.1039/c9ra06879a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Ramanayaka, Sammani
Vithanage, Meththika
Sarmah, Ajit
An, Taicheng
Kim, Ki-Hyun
Ok, Yong Sik
Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title_full Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title_fullStr Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title_full_unstemmed Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title_short Performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
title_sort performance of metal–organic frameworks for the adsorptive removal of potentially toxic elements in a water system: a critical review
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9073907/
https://www.ncbi.nlm.nih.gov/pubmed/35529979
http://dx.doi.org/10.1039/c9ra06879a
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