Metal–organic material polymer coatings for enhanced gas sorption performance and hydrolytic stability under humid conditions

Madden, David G.; Albadarin, Ahmad B.; O'Nolan, Daniel; Cronin, Patrick; Perry, John J.; Solomon, Samuel; Curtin, Teresa; Khraisheh, Majeda; Zaworotko, Michael J.; Walker, Gavin M.

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Metal–organic material polymer coatings for enhanced gas sorption performance and hydrolytic stability under humid conditions

Madden, David G.; Albadarin, Ahmad B.; O'Nolan, Daniel; Cronin, Patrick; Perry, John J.; Solomon, Samuel; Curtin, Teresa; Khraisheh, Majeda; Zaworotko, Michael J.; Walker, Gavin M.

Date

2020

Abstract

Physisorbent metal–organic materials (MOMs) have shown benchmark performance for highly selective CO2 capture from bulk and trace gas mixtures. However, gas stream moisture can be detrimental to both adsorbent performance and hydrolytic stability. One of the most effective methods to solve this issue is to transform the adsorbent surface from hydrophilic to hydrophobic. Herein, we present a facile approach for coating MOMs with organic polymers to afford improved hydrophobicity and hydrolytic stability under humid conditions. The impact of gas stream moisture on CO2 capture for the composite materials was found to be negligible under both bulk and trace CO2 capture conditions with significant improvements in regeneration times and energy requirements.

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peer-reviewed

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American Chemical Society

Citation

ACS Applied Materials and Interfaces; 12 (30), pp. 33759-33764

Funding Information

Science Foundation Ireland (SFI)

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Article

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https://creativecommons.org/licenses/by-nc-sa/1.0/

Metal–organic material polymer coatings for enhanced gas sorption performance and hydrolytic stability under humid conditions

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Sustainable Development Goals

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