Add to ORKGMeasurements of hydrogen solubility have been performed for several unirradiated and neutron-irradiated graphite (and CFC) samples at temperatures between 973 and 1323K under a ~10 kPa hydrogen atmosphere. The hydrogen dissolution process has been studied and it is discussed here. The values of hydrogen solubility vary substantially among the samples up to about a factor of 16. A strong correlation has been observed between the values of hydrogen solubility and the degrees of graphitization determined by X-ray diffraction technique. The relation can be extended even for the neutron irradiated samples. Hydrogen dissolution into graphite can be explained with the trapping of hydrogen at defect sites (e.g. dangling carbon bonds) considering an...
Recent research on hydrogen in various carbon nanostructures is reviewed. Based on these research ac...
Hydrogen-loaded nanocrystalline graphite samples have been prepared by mechanical milling under a hy...
The trapping and sticking of H and D atoms on the graphite ͑0001͒ surface is examined, over the ener...
The experimental data on sorption and solubility of hydrogen isotopes in graphite in a wide ranges o...
Nanostructured graphite was prepared by mechanical milling under a hydrogen atmosphere. Several samp...
We investigated hydrogen absorption/desorption and structural properties in mechanically milled grap...
International audienceThe influence of surface reconstruction and defects due to irradiation damage ...
Bulk defective graphene produced by thermal exfoliation of graphite oxide was treated under H2 and ...
Kinetics and mechanisms were studied for the thermal release of hydrogen isotopes implanted into pyr...
Two desorption peaks of hydrogen molecule (mass number=2), starting at about 600 and 950 K, respecti...
Bulk defective graphene produced by thermal exfoliation of graphite oxide was treated under H<sub>2<...
The development of hydrogen as an energy transfer mechanism is of great importance to alleviate envi...
The development of hydrogen as an energy transfer mechanism is of great importance to alleviate envi...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
This article is devoted to some fundamental aspects of “super” storage in graphite nanofibers (GNF) ...
Recent research on hydrogen in various carbon nanostructures is reviewed. Based on these research ac...
Hydrogen-loaded nanocrystalline graphite samples have been prepared by mechanical milling under a hy...
The trapping and sticking of H and D atoms on the graphite ͑0001͒ surface is examined, over the ener...
The experimental data on sorption and solubility of hydrogen isotopes in graphite in a wide ranges o...
Nanostructured graphite was prepared by mechanical milling under a hydrogen atmosphere. Several samp...
We investigated hydrogen absorption/desorption and structural properties in mechanically milled grap...
International audienceThe influence of surface reconstruction and defects due to irradiation damage ...
Bulk defective graphene produced by thermal exfoliation of graphite oxide was treated under H2 and ...
Kinetics and mechanisms were studied for the thermal release of hydrogen isotopes implanted into pyr...
Two desorption peaks of hydrogen molecule (mass number=2), starting at about 600 and 950 K, respecti...
Bulk defective graphene produced by thermal exfoliation of graphite oxide was treated under H<sub>2<...
The development of hydrogen as an energy transfer mechanism is of great importance to alleviate envi...
The development of hydrogen as an energy transfer mechanism is of great importance to alleviate envi...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
This article is devoted to some fundamental aspects of “super” storage in graphite nanofibers (GNF) ...
Recent research on hydrogen in various carbon nanostructures is reviewed. Based on these research ac...
Hydrogen-loaded nanocrystalline graphite samples have been prepared by mechanical milling under a hy...
The trapping and sticking of H and D atoms on the graphite ͑0001͒ surface is examined, over the ener...