Add to ORKGSupported nickel nanoparticles are promising catalysts for the methanation of CO2. The role of nickel particle size on activity and selectivity in this reaction is a matter of debate. We present a study of metal particle size effects on catalytic stability, activity and selectivity, using nickel on graphitic carbon catalysts. Increasing the Ni particle size from 4 to 8 nm led to a higher catalytic activity, both per gram of nickel and normalized surface area. However, the apparent activation energy remained the same (∼105 kJ mol−1). Comparing experiments at atmospheric to 30 bar pressure demonstrates the importance of testing under industrially relevant pressures; the highest selectivity is obtained at high CO2 conversions and pressures. Fi...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
The role of metal-support interaction in determining CO2 activation and conversion for methane produ...
A catalyst production method that enables the independent tailoring of the structural properties of ...
Supported nickel nanoparticles are promising catalysts for the methanation of CO2. The role of nicke...
Production of ‘renewable Methane’ has attracted renewed research interest as a fundamental probe rea...
The interaction between metal nanoparticles and a support is of key importance in catalysis. In this...
Summarization: The structure sensitivity of CO2 methanation was explored over nickel particles (10–2...
A major cause of supported metal catalyst deactivation is particle growth by Ostwald ripening. Nicke...
Despite the large number of studies on the catalytic hydrogenation of CO2 to CO and hydrocarbons by ...
Nickel metal nanoparticles are intensively researched for the catalytic conversion of carbon dioxide...
A major cause of supported metal catalyst deactivation is particle growth by Ostwald ripening. Nicke...
Continuous efforts in the field of materials science have allowed us to generate smaller and smaller...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
Converting CO2 into value-added chemicals and fuels, such as methanol, is a promising approach to li...
The catalytic conversion of carbon dioxide to synthetic CH4 was studied on five Ni/YSZ samples, with...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
The role of metal-support interaction in determining CO2 activation and conversion for methane produ...
A catalyst production method that enables the independent tailoring of the structural properties of ...
Supported nickel nanoparticles are promising catalysts for the methanation of CO2. The role of nicke...
Production of ‘renewable Methane’ has attracted renewed research interest as a fundamental probe rea...
The interaction between metal nanoparticles and a support is of key importance in catalysis. In this...
Summarization: The structure sensitivity of CO2 methanation was explored over nickel particles (10–2...
A major cause of supported metal catalyst deactivation is particle growth by Ostwald ripening. Nicke...
Despite the large number of studies on the catalytic hydrogenation of CO2 to CO and hydrocarbons by ...
Nickel metal nanoparticles are intensively researched for the catalytic conversion of carbon dioxide...
A major cause of supported metal catalyst deactivation is particle growth by Ostwald ripening. Nicke...
Continuous efforts in the field of materials science have allowed us to generate smaller and smaller...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
Converting CO2 into value-added chemicals and fuels, such as methanol, is a promising approach to li...
The catalytic conversion of carbon dioxide to synthetic CH4 was studied on five Ni/YSZ samples, with...
Ni-based oxides are widely investigated as catalysts for CO2 methanation due to their high activity,...
The role of metal-support interaction in determining CO2 activation and conversion for methane produ...
A catalyst production method that enables the independent tailoring of the structural properties of ...