Add to ORKGHydrogen has the potential to meet the growing demand for clean energy, but several major challenges still need to be addressed. Metal hydrolysis is an approach proposed to produce and utilize hydrogen and to store hydrogen in the form of solid metals and liquid water to address some of these challenges. However, few works focus on studying the reaction of nanostructured metals with deionized water because of the passivation layer that typically forms on metals when exposed to air or water during the metal hydrolysis process. Electrolytic dealloying can be used to prepare nanoporous aluminum metal with high surface areas for hydrolysis, but this method has drawbacks in experimental flexibility. Thus, the focus of this work is on investigati...
Production of hydrogen using aluminum and aluminum alloys with aqueous alkaline solutions is studied...
AbstractProduction of hydrogen from the aluminum and its alloys powder with aqueous alkaline solutio...
Autonomous low-pressure hydrogen on demand system was found promising to supply fuel cell technology...
A profound overview of the recent development for on-time, on-demand hydrogen production from light ...
The hydrolysis performances of two aluminum alloys are investigated as their reactivity can be contr...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, Februar...
Aluminum is one of the most active metals with high affinity to oxygen. In reality however, its reac...
AbstractThe paper discusses the issues concerning producing of compact hydrogen resources for fuel c...
In this study, aluminum–magnesium (Al-Mg) bulk porous materials were fabricated by using uniaxial ho...
Hydrogen generation from hydrolysis of the milled At materials in watar at room temperature Is inves...
Hydrogen production for micro-fuel-cell from activated Al-Sn-Zn-X (X: hydride or halide) mixture in ...
The reaction of aluminum (Al) powder with water has the potential for on demand hydrogen generation....
The reaction of aluminum (Al) powder with water has the potential for on demand hydrogen generation....
Aluminum can react with water and produce hydrogen. Researchers have developed different methods to ...
The results of researches on interaction of aluminum nanopowder with water have been given. It is sh...
Production of hydrogen using aluminum and aluminum alloys with aqueous alkaline solutions is studied...
AbstractProduction of hydrogen from the aluminum and its alloys powder with aqueous alkaline solutio...
Autonomous low-pressure hydrogen on demand system was found promising to supply fuel cell technology...
A profound overview of the recent development for on-time, on-demand hydrogen production from light ...
The hydrolysis performances of two aluminum alloys are investigated as their reactivity can be contr...
Thesis: Sc. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, Februar...
Aluminum is one of the most active metals with high affinity to oxygen. In reality however, its reac...
AbstractThe paper discusses the issues concerning producing of compact hydrogen resources for fuel c...
In this study, aluminum–magnesium (Al-Mg) bulk porous materials were fabricated by using uniaxial ho...
Hydrogen generation from hydrolysis of the milled At materials in watar at room temperature Is inves...
Hydrogen production for micro-fuel-cell from activated Al-Sn-Zn-X (X: hydride or halide) mixture in ...
The reaction of aluminum (Al) powder with water has the potential for on demand hydrogen generation....
The reaction of aluminum (Al) powder with water has the potential for on demand hydrogen generation....
Aluminum can react with water and produce hydrogen. Researchers have developed different methods to ...
The results of researches on interaction of aluminum nanopowder with water have been given. It is sh...
Production of hydrogen using aluminum and aluminum alloys with aqueous alkaline solutions is studied...
AbstractProduction of hydrogen from the aluminum and its alloys powder with aqueous alkaline solutio...
Autonomous low-pressure hydrogen on demand system was found promising to supply fuel cell technology...
