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carbonMilitary unit
machine learningDisease
carbon captureElection
sorbentLocomotive
flue gasChemical compound
adsorptionLocomotive
density functional theorySoftware
The heat capacity of a material is a fundamental property of great practical importance. For example, in a carbon capture process, the heat required to regenerate a solid sorbent is directly related to the heat capacity of the material. However, for most materials suitable for carbon capture applications, the heat capacity is not known, and thus the standard procedure is to assume the same value for all materials. In this work, we developed a machine learning approach, trained on density functional theory simulations, to accurately predict the heat capacity of these materials, that is, zeolites, metal-organic frameworks and covalent-organic frameworks. The accuracy of our prediction is confirmed with experimental data. Finally, for a temper...
Control over CO2 release is extremely important to decrease its hazardous effects on the environment...
Nanoporous materials (e.g., activated carbon, zeolite and metal-organic framework) have attracted gr...
Nanoporous materials such as metal-organic frame-works (MOFs) have been extensively studied for thei...
Thermal engineering of metal-organic frameworks for adsorption-based applications is very topical in...
Thermal energy storage offers numerous benefits by reducing energy consumption and promoting the use...
Nanoporous materials, such as metal-organic frameworks (MOFs), have enormous internal surface areas....
With ever-increasing computer power and rapid developments in molecular theories, high-throughput co...
The use of machine learning for the prediction of physical and chemical properties of crystals based...
Thermal energy storage offers numerous benefits by reducing energy consumption and promoting the use...
SorbMetaML software code, simulation and experimental data, and IPython notebooks to reproduce the r...
Thermal engineering of metal-organic frameworks for adsorption-based applications is very topical in...
Adsorption-based separations using metal–organic frameworks (MOFs) are a promising alternative to tr...
Nanoporous materials such as zeolites, zeolitic imidazolate frameworks (ZIFs), and metal-organic fra...
Molecular sieving is based on mobility differences of species under extreme confinement, i.e. within...
Nanoporous materials such as metal-organic frameworks (MOFs) are promising for applications in clean...
Control over CO2 release is extremely important to decrease its hazardous effects on the environment...
Nanoporous materials (e.g., activated carbon, zeolite and metal-organic framework) have attracted gr...
Nanoporous materials such as metal-organic frame-works (MOFs) have been extensively studied for thei...
Thermal engineering of metal-organic frameworks for adsorption-based applications is very topical in...
Thermal energy storage offers numerous benefits by reducing energy consumption and promoting the use...
Nanoporous materials, such as metal-organic frameworks (MOFs), have enormous internal surface areas....
With ever-increasing computer power and rapid developments in molecular theories, high-throughput co...
The use of machine learning for the prediction of physical and chemical properties of crystals based...
Thermal energy storage offers numerous benefits by reducing energy consumption and promoting the use...
SorbMetaML software code, simulation and experimental data, and IPython notebooks to reproduce the r...
Thermal engineering of metal-organic frameworks for adsorption-based applications is very topical in...
Adsorption-based separations using metal–organic frameworks (MOFs) are a promising alternative to tr...
Nanoporous materials such as zeolites, zeolitic imidazolate frameworks (ZIFs), and metal-organic fra...
Molecular sieving is based on mobility differences of species under extreme confinement, i.e. within...
Nanoporous materials such as metal-organic frameworks (MOFs) are promising for applications in clean...
Control over CO2 release is extremely important to decrease its hazardous effects on the environment...
Nanoporous materials (e.g., activated carbon, zeolite and metal-organic framework) have attracted gr...
Nanoporous materials such as metal-organic frame-works (MOFs) have been extensively studied for thei...
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