Add to ORKGOne of the most promising materials for storing hydrogen in solid state would be included in metal-carbon composites. In order to obtain nanocrystalline metal particles encapsulated by crystalline or amorphous carbon, mechanosynthesis of zirconium-carbonaceous composites and alkali metal-carbonaceous composites was performed. For zirconium-carbonaceous composites, only zirconium-carbon black composite absorbed more hydrogen than expected for a mere mixture with the same composition. The higher hydrogen capacity on the zirconium-carbon black composite would be due to some specific sites on the carbonaceous material created during the milling. Another effect of the composite formation was stabilization of zirconium, that is, the composites di...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
The challenge in the research on hydrogen storage materials is to pack hydrogen atoms or molecules a...
Most of current hydride technology at Savannah River Site is based on beds of metal hydride powders;...
In this chapter, we have shown that hopeful hydrogen storage material can be obtained by ordered mes...
The safe and efficient storage of hydrogen is still one of the remaining challenges towards fuel cel...
The hydrogen storage is one of the most important problem to solve in the field of researches about ...
Currently, a lot of focus is dedicated to metal hydride alloy and options of their utilization. Mank...
AMg–30 wt.% Ti37.5V25Cr37.5 hydrogen storage compositewas successfully synthesized by reactive mecha...
Li-C-H system, which can store about 5.0 mass% of rechargeable H2, has been reported as a promising ...
Magnesium hydride is considered to be one of the most promising hydrogen storage materials, although...
In this paper, we review our recent experimental results on hydrogen storage properties of light ele...
Carbon nanocones are the fifth equilibrium structure of carbon, first synthesized in 1997. They have...
The hydrogen storage properties of ball-milled Mg-Ti-Zr-C composite (1.8 wt.% Ti, 1.9 wt.% Zr and 0....
Nowadays many technological and scientific constraints have limited the finding of a suitable system...
HIGHLIGHTS ► We modify the activated carbon AC35 by implanting in whose structure, particles from va...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
The challenge in the research on hydrogen storage materials is to pack hydrogen atoms or molecules a...
Most of current hydride technology at Savannah River Site is based on beds of metal hydride powders;...
In this chapter, we have shown that hopeful hydrogen storage material can be obtained by ordered mes...
The safe and efficient storage of hydrogen is still one of the remaining challenges towards fuel cel...
The hydrogen storage is one of the most important problem to solve in the field of researches about ...
Currently, a lot of focus is dedicated to metal hydride alloy and options of their utilization. Mank...
AMg–30 wt.% Ti37.5V25Cr37.5 hydrogen storage compositewas successfully synthesized by reactive mecha...
Li-C-H system, which can store about 5.0 mass% of rechargeable H2, has been reported as a promising ...
Magnesium hydride is considered to be one of the most promising hydrogen storage materials, although...
In this paper, we review our recent experimental results on hydrogen storage properties of light ele...
Carbon nanocones are the fifth equilibrium structure of carbon, first synthesized in 1997. They have...
The hydrogen storage properties of ball-milled Mg-Ti-Zr-C composite (1.8 wt.% Ti, 1.9 wt.% Zr and 0....
Nowadays many technological and scientific constraints have limited the finding of a suitable system...
HIGHLIGHTS ► We modify the activated carbon AC35 by implanting in whose structure, particles from va...
Hydrogen storage properties of the ball-milled mixtures composed of hydrogenated nano-structural gra...
The challenge in the research on hydrogen storage materials is to pack hydrogen atoms or molecules a...
Most of current hydride technology at Savannah River Site is based on beds of metal hydride powders;...