Add to ORKGMacroporous silicon membranes, consisting of straight parallel pores with a diameter of 3.3μm and depth/width ratio >60, are used as microreactors for high efficiency hydrogen generation via steam reforming of ethanol. The inner walls of the pores were coated with Co3O3*ZnO catalyst film. The as-prepared reactors were fed with water-ethanol gas mixture and the effect of the reactor temperature and inlet flow rate on the H2 generation was studied. We observed a superior H2 generation efficiency in comparison with conventional microreactors
A macroporous silicon micromonolith containing ca. 40,000 regular channels of 3.3 ¿m in diameter per...
International audienceEthanol steam reforming (ESR) experiments over Pd-Rh/CeO2 catalyst were perfor...
The ethanol steam reforming reaction has been considered for producing pure hydrogen to be used for ...
Macroporous silicon membranes, consisting of straight parallel pores with a diameter of 3.3μm and de...
Macroporous silicon with millions of parallel microchannels per square centimeter can be used as a m...
A silicon micromonolith of 7 mm diameter and 0.2 mm length containing 1.5 million regular channels w...
The typology of using hydrogen as an energy carrier and its implementation in portable fuel cells ha...
Ethanol steam reforming (S/C = 3) was effectively performed at low temperature over catalytic wall r...
A silicon micromonolith of 7 mm diameter and 0.2 mm length containing 1.5 million regular channels w...
A functionalized silicon micromonolith of 7¿mm in diameter and 210¿µm-thick was evaluated for the pr...
A novel design of a silicon-based micro-reformer for onboard hydrogen generation from ethanol is pre...
The present contribution reports the design, manufacture and experimental proof of concept of an eth...
Considerable work has been reported concerning catalytic steam reforming, partial oxidation and oxid...
In this study, the ability of a Pd-Ag membrane reactor of producing ultrapure hydrogen via oxidative...
Ethanol steam reforming in membrane reactors is a promising route for decentralized H-2 production f...
A macroporous silicon micromonolith containing ca. 40,000 regular channels of 3.3 ¿m in diameter per...
International audienceEthanol steam reforming (ESR) experiments over Pd-Rh/CeO2 catalyst were perfor...
The ethanol steam reforming reaction has been considered for producing pure hydrogen to be used for ...
Macroporous silicon membranes, consisting of straight parallel pores with a diameter of 3.3μm and de...
Macroporous silicon with millions of parallel microchannels per square centimeter can be used as a m...
A silicon micromonolith of 7 mm diameter and 0.2 mm length containing 1.5 million regular channels w...
The typology of using hydrogen as an energy carrier and its implementation in portable fuel cells ha...
Ethanol steam reforming (S/C = 3) was effectively performed at low temperature over catalytic wall r...
A silicon micromonolith of 7 mm diameter and 0.2 mm length containing 1.5 million regular channels w...
A functionalized silicon micromonolith of 7¿mm in diameter and 210¿µm-thick was evaluated for the pr...
A novel design of a silicon-based micro-reformer for onboard hydrogen generation from ethanol is pre...
The present contribution reports the design, manufacture and experimental proof of concept of an eth...
Considerable work has been reported concerning catalytic steam reforming, partial oxidation and oxid...
In this study, the ability of a Pd-Ag membrane reactor of producing ultrapure hydrogen via oxidative...
Ethanol steam reforming in membrane reactors is a promising route for decentralized H-2 production f...
A macroporous silicon micromonolith containing ca. 40,000 regular channels of 3.3 ¿m in diameter per...
International audienceEthanol steam reforming (ESR) experiments over Pd-Rh/CeO2 catalyst were perfor...
The ethanol steam reforming reaction has been considered for producing pure hydrogen to be used for ...