Ni-Ce-Zr-O-delta catalysts were prepared via one-pot hydrothermal synthesis. It was found that Ni can be partially incorporated into the Ce-Zr lattice, increasing surface oxygen species. The catalysts possess high surface areas even at high Ni loadings. The catalyst with Ni content of 71.5 wt.% is able to activate CO2 methanation even at a low temperature (200 degrees C). Its CO2 conversion and methane selectivity were reported at 80% and 100%, respectively. The catalyst was stable for 48 h during the course of CO2 methanation at 300 degrees C. Catalysts with the addition of medium basic sites were found to have better catalytic activity for CO2 methanation
Catalytic conversion of CO2 into methane is an attractive method because it can alleviate global war...
A series of Ni-based catalysts supported on Ce-Zr-O were synthesized via impregnation and applied in...
In this work, we present an investigation concerning the evaluation of the catalytic properties of N...
Ni–Ce–Zr mixed oxides were prepared through one-pot hydrolysis of mixed metal nitrates with ammonium...
Developing Ni-based catalysts with high activity and stability in low-temperature methanation is nec...
The CO2 methanation was studied over 7 wt.% nickel supported on Ce0.2Zr0.8O2/AC to evaluate the corr...
A Ni-modified ceria-zirconia support with Ni impregnation at different Ni-loading catalysts for a CO...
The key challenge for CO2 methanation, an eight-electron process under kinetic limitation, relies on...
A series of nickel catalysts supported on Ce0.5Zr0.5O2 were prepared by impregnation (IMP), depositi...
Carbon dioxide is the principal greenhouse gas produced by fossil fuels combustion. The CO2 methanat...
CeO2 nanorods (CeO2-nrs), CeO2 nanocubes (CeO2-ncs) and CeO2 nanopolyhedrons (CeO2-nps) were prepare...
A series of Ni based catalysts prepared by incipient wetness method were characterized by chemisorpt...
This work reports a strategy to promote the low-temperature CO2 methanation on the Ni-based catalyst...
Carbon dioxide methanation is an interesting way to reduce greenhouse effect gases emission and, sim...
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...
A series of Ni-based catalysts supported on Ce-Zr-O were synthesized via impregnation and applied in...
In this work, we present an investigation concerning the evaluation of the catalytic properties of N...
Ni–Ce–Zr mixed oxides were prepared through one-pot hydrolysis of mixed metal nitrates with ammonium...
Developing Ni-based catalysts with high activity and stability in low-temperature methanation is nec...
The CO2 methanation was studied over 7 wt.% nickel supported on Ce0.2Zr0.8O2/AC to evaluate the corr...
A Ni-modified ceria-zirconia support with Ni impregnation at different Ni-loading catalysts for a CO...
The key challenge for CO2 methanation, an eight-electron process under kinetic limitation, relies on...
A series of nickel catalysts supported on Ce0.5Zr0.5O2 were prepared by impregnation (IMP), depositi...
Carbon dioxide is the principal greenhouse gas produced by fossil fuels combustion. The CO2 methanat...
CeO2 nanorods (CeO2-nrs), CeO2 nanocubes (CeO2-ncs) and CeO2 nanopolyhedrons (CeO2-nps) were prepare...
A series of Ni based catalysts prepared by incipient wetness method were characterized by chemisorpt...
This work reports a strategy to promote the low-temperature CO2 methanation on the Ni-based catalyst...
Carbon dioxide methanation is an interesting way to reduce greenhouse effect gases emission and, sim...
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...
A series of Ni-based catalysts supported on Ce-Zr-O were synthesized via impregnation and applied in...
In this work, we present an investigation concerning the evaluation of the catalytic properties of N...