The direct catalytic conversion of atmospheric CO2 to valuable chemicals is a promising solution to avert negative consequences of rising CO2 concentration. However, heterogeneous catalysts efficient at low partial pressures of CO2 still need to be developed. Here, we explore Co/CeO2 as a catalyst for the methanation of diluted CO2 streams. This material displays an excellent performance at reaction temperatures as low as 175 °C and CO2 partial pressures as low as 0.4 mbar (the atmospheric CO2 concentration). To gain mechanistic understanding of this unusual activity, we employed in situ X-ray photoelectron spectroscopy and operando infrared spectroscopy. The higher surface concentration and reactivity of formates and carbonyls—key reaction...
As a step in production of so-called electrofuels, ambient pressure CO2 hydrogenation has been inves...
Reducing greenhouse emissions is of vital importance to tackle the climate changes and to decrease t...
The dry reforming of methane was systematically studied over a series (2-30 wt%) of Co (~5nm in size...
The direct catalytic conversion of atmospheric CO2 to valuable chemicals is a promising solution to ...
Herein, the production of synthetic natural gas is proposed as an effective route for CO2 conversion...
CO2 methanation is a promising reaction for utilizing CO2 using hydrogen generated by renewable ener...
Carbon dioxide methanation is well known to achieve the catalytic conversion of the CO2 molecule int...
Summarization: CO2 hydrogenation to value added chemicals/fuels has gained considerable interest, in...
The methanation of carbon dioxide under atmospheric pressure on a Co-Ni/Al2O3 catalyst containing 5 ...
This work reports a strategy to promote the low-temperature CO2 methanation on the Ni-based catalyst...
In situ structural and chemical state characterization of Rh/CeO 2 and Ni/CeO 2 catalysts during atm...
The conversion of CO2 towards added valuable products is considered as a potential alternative to ac...
CO2 methanation structured catalysts, made by a layer of Ru–CeO2 or Ni–CeO2 (Ru/Ce = 3/97; Ni/Ce = 1...
With the accelerating industrialization, urbanization process, and continuously upgrading of consump...
The hydrogenation of CO2 is presented as a catalytic strategy for CO2 utilization and an approach to...
As a step in production of so-called electrofuels, ambient pressure CO2 hydrogenation has been inves...
Reducing greenhouse emissions is of vital importance to tackle the climate changes and to decrease t...
The dry reforming of methane was systematically studied over a series (2-30 wt%) of Co (~5nm in size...
The direct catalytic conversion of atmospheric CO2 to valuable chemicals is a promising solution to ...
Herein, the production of synthetic natural gas is proposed as an effective route for CO2 conversion...
CO2 methanation is a promising reaction for utilizing CO2 using hydrogen generated by renewable ener...
Carbon dioxide methanation is well known to achieve the catalytic conversion of the CO2 molecule int...
Summarization: CO2 hydrogenation to value added chemicals/fuels has gained considerable interest, in...
The methanation of carbon dioxide under atmospheric pressure on a Co-Ni/Al2O3 catalyst containing 5 ...
This work reports a strategy to promote the low-temperature CO2 methanation on the Ni-based catalyst...
In situ structural and chemical state characterization of Rh/CeO 2 and Ni/CeO 2 catalysts during atm...
The conversion of CO2 towards added valuable products is considered as a potential alternative to ac...
CO2 methanation structured catalysts, made by a layer of Ru–CeO2 or Ni–CeO2 (Ru/Ce = 3/97; Ni/Ce = 1...
With the accelerating industrialization, urbanization process, and continuously upgrading of consump...
The hydrogenation of CO2 is presented as a catalytic strategy for CO2 utilization and an approach to...
As a step in production of so-called electrofuels, ambient pressure CO2 hydrogenation has been inves...
Reducing greenhouse emissions is of vital importance to tackle the climate changes and to decrease t...
The dry reforming of methane was systematically studied over a series (2-30 wt%) of Co (~5nm in size...