The catalytic conversion of carbon dioxide to synthetic CH4 was studied on five Ni/YSZ samples, with the same nickel loading (10 wt%) but different Ni particle sizes. The catalysts, prepared by different methods, were characterized combining morphological (BET, TEM), structural (XRD, in-operando XAS), electronic (XPS, in-operando XANES) analysis and H2-TPR experiments. The results showed that catalytic activity and CH4 selectivity depended on the size and morphology of Ni particles, and that type and amount of deposited carbon strongly depended on Ni0 morphology. The kinetic measurements revealed that both H2 and CO2 reactants were activated on Ni sites and that YSZ support was not directly involved in the reaction mechanism. The mos...
International audienceCO2 methanation is one of the most promising ways to store energy based on the...
The key challenge for CO2 methanation, an eight-electron process under kinetic limitation, relies on...
This thesis describes the preparation, characterization and catalytic performance of nickel-based ca...
The catalytic conversion of carbon dioxide to synthetic CH4 was studied on five Ni/YSZ samples, with...
A series of Ni (10 wt %) supported on commercial yttrium stabilized zirconia (YSZ) catalysts have be...
Ni supported on yttrium-stabilized zirconium oxide catalysts have been prepared by electroless plati...
Catalytic conversion of CO2 into methane is an attractive method because it can alleviate global war...
In this work, we present an investigation concerning the evaluation of the catalytic properties of N...
The CO2 methanation reaction was studied over catalysts containing different amounts of nickel (10–4...
Summarization: The structure sensitivity of CO2 methanation was explored over nickel particles (10–2...
Production of propellant for the return to Earth from in-situ resources allows not transporting the ...
Production of ‘renewable Methane’ has attracted renewed research interest as a fundamental probe rea...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
The chemical recycling of greenhouse gas CO2 produced in hydrocarbon combustion is an attractive alt...
The CO2 methanation was studied over 7 wt.% nickel supported on Ce0.2Zr0.8O2/AC to evaluate the corr...
International audienceCO2 methanation is one of the most promising ways to store energy based on the...
The key challenge for CO2 methanation, an eight-electron process under kinetic limitation, relies on...
This thesis describes the preparation, characterization and catalytic performance of nickel-based ca...
The catalytic conversion of carbon dioxide to synthetic CH4 was studied on five Ni/YSZ samples, with...
A series of Ni (10 wt %) supported on commercial yttrium stabilized zirconia (YSZ) catalysts have be...
Ni supported on yttrium-stabilized zirconium oxide catalysts have been prepared by electroless plati...
Catalytic conversion of CO2 into methane is an attractive method because it can alleviate global war...
In this work, we present an investigation concerning the evaluation of the catalytic properties of N...
The CO2 methanation reaction was studied over catalysts containing different amounts of nickel (10–4...
Summarization: The structure sensitivity of CO2 methanation was explored over nickel particles (10–2...
Production of propellant for the return to Earth from in-situ resources allows not transporting the ...
Production of ‘renewable Methane’ has attracted renewed research interest as a fundamental probe rea...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
The chemical recycling of greenhouse gas CO2 produced in hydrocarbon combustion is an attractive alt...
The CO2 methanation was studied over 7 wt.% nickel supported on Ce0.2Zr0.8O2/AC to evaluate the corr...
International audienceCO2 methanation is one of the most promising ways to store energy based on the...
The key challenge for CO2 methanation, an eight-electron process under kinetic limitation, relies on...
This thesis describes the preparation, characterization and catalytic performance of nickel-based ca...