Metal-organic frameworks for the removal of toxic industrial chemicals and chemical warfare agents

N. Scott Bobbitt; Matthew L. Mendonca; Ashlee J. Howarth; Timur Islamoglu; Joseph T. Hupp; Omar K. Farha; Randall Q. Snurr

doi:10.1039/c7cs00108h

Metal-organic frameworks for the removal of toxic industrial chemicals and chemical warfare agents

N. Scott Bobbitt, Matthew L. Mendonca, Ashlee J. Howarth, Timur Islamoglu, Joseph T. Hupp, Omar K. Farha^*, Randall Q. Snurr

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

645 Scopus citations

Abstract

Owing to the vast diversity of linkers, nodes, and topologies, metal-organic frameworks can be tailored for specific tasks, such as chemical separations or catalysis. Accordingly, these materials have attracted significant interest for capture and/or detoxification of toxic industrial chemicals and chemical warfare agents. In this paper, we review recent experimental and computational work pertaining to the capture of several industrially-relevant toxic chemicals, including NH₃, SO₂, NO₂, H₂S, and some volatile organic compounds, with particular emphasis on the challenging issue of designing materials that selectively adsorb these chemicals in the presence of water. We also examine recent research on the capture and catalytic degradation of chemical warfare agents such as sarin and sulfur mustard using metal-organic frameworks.

Original language	English (US)
Pages (from-to)	3357-3385
Number of pages	29
Journal	Chemical Society Reviews
Volume	46
Issue number	11
DOIs	https://doi.org/10.1039/c7cs00108h
State	Published - Jun 7 2017

ASJC Scopus subject areas

Chemistry(all)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1039/c7cs00108h

Cite this

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abstract = "Owing to the vast diversity of linkers, nodes, and topologies, metal-organic frameworks can be tailored for specific tasks, such as chemical separations or catalysis. Accordingly, these materials have attracted significant interest for capture and/or detoxification of toxic industrial chemicals and chemical warfare agents. In this paper, we review recent experimental and computational work pertaining to the capture of several industrially-relevant toxic chemicals, including NH3, SO2, NO2, H2S, and some volatile organic compounds, with particular emphasis on the challenging issue of designing materials that selectively adsorb these chemicals in the presence of water. We also examine recent research on the capture and catalytic degradation of chemical warfare agents such as sarin and sulfur mustard using metal-organic frameworks.",

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AU - Bobbitt, N. Scott

AU - Mendonca, Matthew L.

AU - Howarth, Ashlee J.

AU - Islamoglu, Timur

AU - Hupp, Joseph T.

AU - Farha, Omar K.

AU - Snurr, Randall Q.

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AB - Owing to the vast diversity of linkers, nodes, and topologies, metal-organic frameworks can be tailored for specific tasks, such as chemical separations or catalysis. Accordingly, these materials have attracted significant interest for capture and/or detoxification of toxic industrial chemicals and chemical warfare agents. In this paper, we review recent experimental and computational work pertaining to the capture of several industrially-relevant toxic chemicals, including NH3, SO2, NO2, H2S, and some volatile organic compounds, with particular emphasis on the challenging issue of designing materials that selectively adsorb these chemicals in the presence of water. We also examine recent research on the capture and catalytic degradation of chemical warfare agents such as sarin and sulfur mustard using metal-organic frameworks.

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Metal-organic frameworks for the removal of toxic industrial chemicals and chemical warfare agents

Abstract

ASJC Scopus subject areas

UN SDGs

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