The hydrogen sorption kinetics of magnesium nanoparticles prepared by inert gas condensation and coated by a magnesium oxide layer were investigated by a volumetric apparatus. The metal-hydride transformation was studied by transmission electron microscopy of the nanoparticles both in the as prepared state and after hydrogen cycling
By hydrogen plasma metal reaction method, we obtained Mg, Ni, Co, Cu and Fe nanoparticles. Mg nanopa...
Among the metal hydrides, magnesium has the theoretically highest weight capacity for hydrogen stora...
For the future zero-emission vehicle, hydrogen is of great importance as alternative fuel. For both ...
The hydrogen sorption kinetics of magnesium nanoparticles prepared by inert gas condensation and coa...
Magnesium nanoparticles coated by a native oxide shell and decorated by palladium clusters were synt...
Mg nanoparticles with metal-oxide core-shell morphology were synthesized by inert-gas condensation a...
The aim of this work is to investigate metal hydride transformation in Magnesium (Mg) nanoparticles ...
We report on the hydrogen storage behaviour of Mg nanoparticles (NPs) (size range 100 nm\u20131 um) ...
Nowadays alternative energies are an extremely important topic and the possibility of using hydrogen...
none3noWe study the kinetics of hydrogen sorption in Mg-Ti-H nanoparticles prepared by gas phase con...
The hydrogen desorption kinetics of composite materials made of magnesium hydride with transition me...
MgH2 nanoparticles were obtained by hydriding ultrafine magnesium particles which were prepared by h...
We report on the hydrogen storage behaviour of Mg nanoparticles (NPs) (size range 100 nm–1 lm) with ...
Among the metal hydrides, magnesium has the theoretically highest weight capacity for hydrogen stora...
Both hydrogen absorption and desorption, in the range 200–300 and 260–330 °C, respectively, of magne...
By hydrogen plasma metal reaction method, we obtained Mg, Ni, Co, Cu and Fe nanoparticles. Mg nanopa...
Among the metal hydrides, magnesium has the theoretically highest weight capacity for hydrogen stora...
For the future zero-emission vehicle, hydrogen is of great importance as alternative fuel. For both ...
The hydrogen sorption kinetics of magnesium nanoparticles prepared by inert gas condensation and coa...
Magnesium nanoparticles coated by a native oxide shell and decorated by palladium clusters were synt...
Mg nanoparticles with metal-oxide core-shell morphology were synthesized by inert-gas condensation a...
The aim of this work is to investigate metal hydride transformation in Magnesium (Mg) nanoparticles ...
We report on the hydrogen storage behaviour of Mg nanoparticles (NPs) (size range 100 nm\u20131 um) ...
Nowadays alternative energies are an extremely important topic and the possibility of using hydrogen...
none3noWe study the kinetics of hydrogen sorption in Mg-Ti-H nanoparticles prepared by gas phase con...
The hydrogen desorption kinetics of composite materials made of magnesium hydride with transition me...
MgH2 nanoparticles were obtained by hydriding ultrafine magnesium particles which were prepared by h...
We report on the hydrogen storage behaviour of Mg nanoparticles (NPs) (size range 100 nm–1 lm) with ...
Among the metal hydrides, magnesium has the theoretically highest weight capacity for hydrogen stora...
Both hydrogen absorption and desorption, in the range 200–300 and 260–330 °C, respectively, of magne...
By hydrogen plasma metal reaction method, we obtained Mg, Ni, Co, Cu and Fe nanoparticles. Mg nanopa...
Among the metal hydrides, magnesium has the theoretically highest weight capacity for hydrogen stora...
For the future zero-emission vehicle, hydrogen is of great importance as alternative fuel. For both ...
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