Add to ORKGThe global demand for xenon (Xe) increases significantly not only as fuel for ion thruster and ion engines but also in the electronics, lighting, and medical industry. The amount of Xe contained in Earth’s atmosphere is very low (at just 0.087 ppmv concentration). The Xe storage in the form of compressed-gas or liquified state requires massive supporting refrigeration systems, pressure reduction equipment, complex controls, and thick-walled tanks. Therefore, adsorption assisted Xe storage and separation is an alternative to the current technology. The thermodynamic property surfaces such as the enthalpy and the entropy for xenon adsorption on MIL-100(Fe), MIL-101(Cr) and UiO-66(Zr) types of metal organic frameworks (MOFs). These formulation...
The cryogenic separation of noble gases is energy-intensive and expensive, especially when low conce...
Adsorption occurs due to force interactions between a solid adsorbent surface and gaseous phase mole...
An activated carbon prepared from silicon carbide by thermochemical synthesis and des-ignated as SiC...
Xenon (Xe) is expected to emerge as a highly demanded noble gas globally over the next few years due...
Due to its applications in electronics, commercial lighting, medical applications, and ion propuls...
The adsorption isotherms can be used to study the properties of a sorbent and to determine the bindi...
Metal-organic frameworks (MOFs) are porous crystals with the potential to improve many industrial ga...
Nuclear energy is among the most viable alternatives to our current fossil fuel-based energy economy...
International audienceNanoporous framework materials are a promising class of materials for energy-e...
The total world energy demand is predicted to rise significantly over the next few decades, primaril...
The efficient separation of xenon (Xe) and krypton (Kr) is one of the industrially important process...
The total world energy demand is predicted to rise significantly over the next few decades, primaril...
New theoretical expressions for the modeling of adsorption isotherms of Xenon on Graphite at 110 K h...
International audienceMOFs come alive: The combination of gas‐adsorption experiments at various temp...
We have studied the adsorption properties of Xe and Kr in a highly microporous hydrogen-bonded organ...
The cryogenic separation of noble gases is energy-intensive and expensive, especially when low conce...
Adsorption occurs due to force interactions between a solid adsorbent surface and gaseous phase mole...
An activated carbon prepared from silicon carbide by thermochemical synthesis and des-ignated as SiC...
Xenon (Xe) is expected to emerge as a highly demanded noble gas globally over the next few years due...
Due to its applications in electronics, commercial lighting, medical applications, and ion propuls...
The adsorption isotherms can be used to study the properties of a sorbent and to determine the bindi...
Metal-organic frameworks (MOFs) are porous crystals with the potential to improve many industrial ga...
Nuclear energy is among the most viable alternatives to our current fossil fuel-based energy economy...
International audienceNanoporous framework materials are a promising class of materials for energy-e...
The total world energy demand is predicted to rise significantly over the next few decades, primaril...
The efficient separation of xenon (Xe) and krypton (Kr) is one of the industrially important process...
The total world energy demand is predicted to rise significantly over the next few decades, primaril...
New theoretical expressions for the modeling of adsorption isotherms of Xenon on Graphite at 110 K h...
International audienceMOFs come alive: The combination of gas‐adsorption experiments at various temp...
We have studied the adsorption properties of Xe and Kr in a highly microporous hydrogen-bonded organ...
The cryogenic separation of noble gases is energy-intensive and expensive, especially when low conce...
Adsorption occurs due to force interactions between a solid adsorbent surface and gaseous phase mole...
An activated carbon prepared from silicon carbide by thermochemical synthesis and des-ignated as SiC...