Add to ORKGHydrogen sorption in highly porous carbon with well defined pores, with three different shapes, and different sizes ranging from sub to nanometers is investigated. Using combined approach of volumetric gas adsorption method and in situ quasi elastic neutron scattering method the relationship between final macroscopic intake properties, details of the local adsorbent structure and the molecular behaviour of confined hydrogen is established. It is shown that sub nanometer pores of spherical and cylindrical shape strongly limit the diffusion of H2, and thus, enhance the H2 storage capability of carbons with well tailored pore structure. In mesoporous carbide derived carbon, the formation of a hydrogen layer with reduced mobility close to the ...
This dataset contains data collected during quasi-elastic neutron scattering experiments on the diff...
On-board hydrogen storage is a key requirement for fuel cell-powered cars and trucks. Porous carbon-...
Here we report direct physical evidence that confinement of molecular hydrogen (H<sub>2</sub>) in an...
Hydrogen sorption in highly porous carbon with well defined pores, with three different shapes, and ...
Microporous carbon materials are promising for hydrogen storage due to their structural variety, hig...
Our investigations into molecular hydrogen (H2) confined in microporous carbons with different pore ...
This is the final version. Available on open access from Elsevier via the DOI in this recordOur inve...
The self diffusion mechanisms for adsorbed H2 in different porous structures are investigated with i...
International audienceCarbons are one of several promising groups of materials for hydrogen storage ...
Carbons are one of several promising groups of materials for hydrogen storage by ad-sorption. Here i...
International audienceHydrogen is very likely the ultimate future of the energetic economy of the wo...
(Graph Presented). Here we report direct physical evidence that confinement of molecular hydrogen (H...
Cryoadsorption is a promising method of enhancing gravimetric and volumetric onboard H2 storage capa...
On-board hydrogen storage is one of the major hurdles for success of hydrogen economy. Hydrogen stor...
We have measured Incoherent Inelastic Neutron Scattering (IINS) spectra of H2 physisorbed in high pu...
This dataset contains data collected during quasi-elastic neutron scattering experiments on the diff...
On-board hydrogen storage is a key requirement for fuel cell-powered cars and trucks. Porous carbon-...
Here we report direct physical evidence that confinement of molecular hydrogen (H<sub>2</sub>) in an...
Hydrogen sorption in highly porous carbon with well defined pores, with three different shapes, and ...
Microporous carbon materials are promising for hydrogen storage due to their structural variety, hig...
Our investigations into molecular hydrogen (H2) confined in microporous carbons with different pore ...
This is the final version. Available on open access from Elsevier via the DOI in this recordOur inve...
The self diffusion mechanisms for adsorbed H2 in different porous structures are investigated with i...
International audienceCarbons are one of several promising groups of materials for hydrogen storage ...
Carbons are one of several promising groups of materials for hydrogen storage by ad-sorption. Here i...
International audienceHydrogen is very likely the ultimate future of the energetic economy of the wo...
(Graph Presented). Here we report direct physical evidence that confinement of molecular hydrogen (H...
Cryoadsorption is a promising method of enhancing gravimetric and volumetric onboard H2 storage capa...
On-board hydrogen storage is one of the major hurdles for success of hydrogen economy. Hydrogen stor...
We have measured Incoherent Inelastic Neutron Scattering (IINS) spectra of H2 physisorbed in high pu...
This dataset contains data collected during quasi-elastic neutron scattering experiments on the diff...
On-board hydrogen storage is a key requirement for fuel cell-powered cars and trucks. Porous carbon-...
Here we report direct physical evidence that confinement of molecular hydrogen (H<sub>2</sub>) in an...