The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption

Recent advances in microporous metal–organic frameworks as promising adsorbents for gas separation - Journal of Materials Chemistry A (RSC Publishing) DOI:10.1039/D2TA04835C

Metal–organic frameworks for carbon dioxide capture, MRS Energy & Sustainability

Adsorption isotherms and enthalpies of adsorption of CO 2 and CH 4 at

Combining In Situ Techniques (XRD, IR, and 13C NMR) and Gas Adsorption Measurements Reveals CO2-Induced Structural Transitions and High CO2/CH4 Selectivity for a Flexible Metal–Organic Framework JUK-8

Flexibility of the MIL-53 framework a Schematic representation of the

Adsorption of CO2, N2 and CH4 on a Fe-based metal organic framework, MIL-101(Fe)-NH2 - ScienceDirect

Temperature dependence of adsorption hysteresis in flexible metal organic frameworks

Striking CO2 capture and CO2/N2 separation by Mn/Al bimetallic MIL-53 - ScienceDirect

PDF] Thermodynamic analysis of the breathing of amino-functionalized MIL-53( Al) upon CO2 adsorption

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Tailoring the separation properties of flexible metal-organic frameworks using mechanical pressure

PDF] Breathing transitions in MIL-53(Al) metal-organic framework upon xenon adsorption.

PDF] The Behavior of Flexible MIL-53(Al) upon CH4 and CO2 Adsorption

Figure 5 from Comparative study of hydrogen sulfide adsorption in the MIL-53 (Al, Cr, Fe), MIL-47(V), MIL-100(Cr), and MIL-101(Cr) metal-organic frameworks at room temperature.

CH 4 excess uptakes of MIL-53(Al)–NH 2 at various temperatures (filled