Highly Cooperative CO₂ Adsorption via a Cation Crowding Mechanism on a Cesium‐Exchanged Phillipsite Zeolite

Abstract: An understanding of the CO2 adsorption mechanisms on small‐pore zeolites is of practical importance in the development of more efficient adsorbents for the separation of CO2 from N2 or CH4. Here we report that the CO2 isotherms at 25–75 °C on cesium‐exchanged phillipsite zeolite with a Si/Al ratio of 2.5 (Cs‐PHI‐2.5) are characterized by a rectilinear step shape: limited uptake at low CO2 pressure (PCO2) is followed by highly cooperative uptake at a critical pressure, above which adsorption rapidly approaches … Show more

“…The research data supporting this publication can be accessed at https://doi.org/10.17630/dd5c01d4-8109-4fa5-8c16-9bceb54a7169 [20] Keywords:…”

Highly Cooperative CO₂ Adsorption via a Cation Crowding Mechanism on a Cesium‐Exchanged Phillipsite Zeolite

“…The research data supporting this publication can be accessed at https://doi.org/10.17630/dd5c01d4-8109-4fa5-8c16-9bceb54a7169 [20] Keywords:…”

Highly Cooperative CO₂ Adsorption via a Cation Crowding Mechanism on a Cesium‐Exchanged Phillipsite Zeolite

Highly Cooperative CO₂ Adsorption via a Cation Crowding Mechanism on a Cesium‐Exchanged Phillipsite Zeolite