Add low temperature capability (77 K) to in situ high pressure (100 atm) nuclear magnetic resonance (NMR) probe. Study the effectiveness of boron doping in enhancing the binding energy of hydrogen in graphitic carbon. Analyze the structure of boron-doped carbon using NMR. Perform adsorption studies of single walled carbon nanohorns
There are many theoretical attempts to propose a porous system which would store hydrogen at the min...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...
International audienceHydrogen is widely considered an essential part of our energy future despite t...
In support of DOE/EERE's Fuel Cell Technologies Program Hydrogen Sorption Center of Excellence (HSCo...
International audienceHere we explored the possibility to prepare boron-substituted nanoporous carbo...
International audienceHydrogen is considered to be the preferred successor to gasoline due to its cl...
Hydrogen storage using physisorption requires higher desorption temperatures than those possible usi...
The Penn State effort explored the development of new high-surface-area materials for hydrogen stora...
International audienceThe systematic usage of fossil fuels and the emission of their combustion prod...
The intensive use of fossil fuels and the emission of combustion products (mostly CO2) to air have a...
Boron-doped high surface area carbon is shown to have unique chemical and structural properties that...
Under the context of the global energy crisis, hydrogen is regarded as an ideal resource of energy d...
We review the current achievements in the numerical studies of adsorption of molecular hydrogen in b...
Hydrogen storage materials based on the hydrogen spillover mechanism onto metal-doped nanoporous car...
This paper reports a bottom-up solution-phase process for the preparation of pristine and heteroatom...
There are many theoretical attempts to propose a porous system which would store hydrogen at the min...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...
International audienceHydrogen is widely considered an essential part of our energy future despite t...
In support of DOE/EERE's Fuel Cell Technologies Program Hydrogen Sorption Center of Excellence (HSCo...
International audienceHere we explored the possibility to prepare boron-substituted nanoporous carbo...
International audienceHydrogen is considered to be the preferred successor to gasoline due to its cl...
Hydrogen storage using physisorption requires higher desorption temperatures than those possible usi...
The Penn State effort explored the development of new high-surface-area materials for hydrogen stora...
International audienceThe systematic usage of fossil fuels and the emission of their combustion prod...
The intensive use of fossil fuels and the emission of combustion products (mostly CO2) to air have a...
Boron-doped high surface area carbon is shown to have unique chemical and structural properties that...
Under the context of the global energy crisis, hydrogen is regarded as an ideal resource of energy d...
We review the current achievements in the numerical studies of adsorption of molecular hydrogen in b...
Hydrogen storage materials based on the hydrogen spillover mechanism onto metal-doped nanoporous car...
This paper reports a bottom-up solution-phase process for the preparation of pristine and heteroatom...
There are many theoretical attempts to propose a porous system which would store hydrogen at the min...
A Round Robin exercise has been carried out in the frame of the European project NESSHY (Novel and E...
International audienceHydrogen is widely considered an essential part of our energy future despite t...