Al-water reaction is used to produce nanoparticles of aluminum hydroxide. Ball-milling of aluminum powder in water was examined for promoting this reaction. Scanning electron microscopy and X-ray diffraction assisted by Rietveld refinement were used to study the by-products of the reaction. Results showed that the activated Al powder completely reacted with water at room temperature. Hydrogen, gibbsite and bayerite were formed at the end of the reaction. A mechanism is proposed to explain how wet milling of Al powder can promote the reaction. The morphology of the by-products changed with the milling time. Notably the samples milled for 7 and 12. h had the shapes of nanospheres, nanospindles and nanorods. The calcination process made in con...
WOS: 000416609400004Hydrogen generation by the reaction of Al-NaCl mixtures with water was investiga...
Aluminum powder when ball milled with secondary particles will corrode in water releasing hydrogen. ...
We analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by...
Al-water reaction is used to produce nanoparticles of aluminum hydroxide. Ball-milling of aluminum p...
Aluminum can react with water and produce hydrogen. Researchers have developed different methods to ...
A method is described for activation of the reaction of room temperature water with micron-scale alu...
Here, we describe an easy one-step process for producing structurally controlled aluminium hydroxide...
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....
International audienceHigh-energy ball-milling is proven to be an effective technique for manufactur...
This study offers an remarkable example of the ability to synthesize and tune the reactivity of Alum...
The effect of thermal treatment of aluminum core-shell particles on their oxidation kinetics in wate...
Mechanical milling of aluminum powders with two immiscible liquids, acetonitrile and hexane, produce...
Aluminum is one of the most active metals with high affinity to oxygen. In reality however, its reac...
The wet-chemical synthesis of aluminum nanoparticles was investigated systematically by using dimeth...
WOS: 000416609400004Hydrogen generation by the reaction of Al-NaCl mixtures with water was investiga...
Aluminum powder when ball milled with secondary particles will corrode in water releasing hydrogen. ...
We analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by...
Al-water reaction is used to produce nanoparticles of aluminum hydroxide. Ball-milling of aluminum p...
Aluminum can react with water and produce hydrogen. Researchers have developed different methods to ...
A method is described for activation of the reaction of room temperature water with micron-scale alu...
Here, we describe an easy one-step process for producing structurally controlled aluminium hydroxide...
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....
International audienceHigh-energy ball-milling is proven to be an effective technique for manufactur...
This study offers an remarkable example of the ability to synthesize and tune the reactivity of Alum...
The effect of thermal treatment of aluminum core-shell particles on their oxidation kinetics in wate...
Mechanical milling of aluminum powders with two immiscible liquids, acetonitrile and hexane, produce...
Aluminum is one of the most active metals with high affinity to oxygen. In reality however, its reac...
The wet-chemical synthesis of aluminum nanoparticles was investigated systematically by using dimeth...
WOS: 000416609400004Hydrogen generation by the reaction of Al-NaCl mixtures with water was investiga...
Aluminum powder when ball milled with secondary particles will corrode in water releasing hydrogen. ...
We analyzed the formation of the aluminum (Al) nanoparticles (NPs) with triangular shape obtained by...