The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption
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The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption
Understanding the effect of host flexibility on the adsorption of CH4, CO2 and SF6 in porous organic cages
Theoretical isotherm equation for adsorption-induced structural transition on flexible metal–organic frameworks
Metal–organic frameworks for carbon dioxide capture, MRS Energy & Sustainability
MIL‐53(Al) as a Versatile Platform for Ionic‐Liquid/MOF Composites to Enhance CO2 Selectivity over CH4 and N2 - Kavak - 2019 - Chemistry – An Asian Journal - Wiley Online Library
Theoretical isotherm equation for adsorption-induced structural transition on flexible metal–organic frameworks
CH 4 total uptakes of MIL-53(Al)–NH 2 and MIL-53 at 298 K (filled
The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption
Co-adsorption and Separation of CO2−CH4 Mixtures in the Highly Flexible MIL- 53(Cr) MOF
Recent advances in microporous metal–organic frameworks as promising adsorbents for gas separation - Journal of Materials Chemistry A (RSC Publishing) DOI:10.1039/D2TA04835C
Dynamic desorption of CO2 and CH4 from amino-MIL-53(Al) adsorbent
PDF] The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption
Striking CO2 capture and CO2/N2 separation by Mn/Al bimetallic MIL-53 - ScienceDirect
Full article: Computational exploration of the gas adsorption on the iron tetracarboxylate metal-organic framework MIL-102
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