Add to ORKGThe ever growing increase of CO2 concentration in the atmosphere is one of the main causes of global warming. Thus, CO2 activation and conversion towards valuable added compounds is a major scientific challenge. A new set of Au/δ-MoC and Cu/δ-MoC catalysts exhibits high activity, selectivity, and stability for the reduction of CO2 to CO with some subsequent selective hydrogenation towards methanol. Sophisticated experiments under controlled conditions and calculations based on density functional theory have been used to study the unique behavior of these systems. A detailed comparison of the behavior of Au/β-Mo2C and Au/δ-MoC catalysts provides evidence of the impact of the metal/carbon ratio in the carbide on the performance of the catalys...
High-surface-area molybdenum and tungsten carbide materials, synthesised by the temperature programm...
The utilization of carbon dioxide (CO2) in chemical production has attracted global research interes...
Electrochemically converting CO2 into low-coordinated carbides provides a sustainable way to utilize...
The ever growing increase of CO2 concentration in the atmosphere is one of the main causes of global...
The water gas shift (WGS) reaction catalyzed by orthorhombic beta-Mo2C and cubic delta-MoC surfaces ...
The conversion of CO2 into methanol catalyzed by β-Mo2C and Cu/β-Mo2C surfaces has been investigated...
Mitigation of anthropogenic CO2 emissions possess a major global challenge for modern societies. Her...
The Mo carbide has been widely studied as a promising catalyst system for reverse water-gas shift re...
Our society has a problem with the use of fossil fuels, due to the vast and exceeding emissions deri...
Mo2C is an effective catalyst for chemical CO2 upgrading via reverse water-gas shift (RWGS). In this...
The adsorption and activation of a CO2 molecule on cubic d-MoC(001) and orthorhombic b-Mo2C(001) sur...
Present experiments show that synthesized polycrystalline hexagonal α-Mo2C is a highly efficient and...
Mo2C is an effective catalyst for chemical CO2 upgrading via reverse water-gas shift (RWGS). In this...
The surfaces of compound catalyst materials generally exhibit a wide range of geometric and composit...
Supported molybdenum carbide (yMo2C/M41) and Cu-promoted molybdenum carbide, using a mechanical mixi...
High-surface-area molybdenum and tungsten carbide materials, synthesised by the temperature programm...
The utilization of carbon dioxide (CO2) in chemical production has attracted global research interes...
Electrochemically converting CO2 into low-coordinated carbides provides a sustainable way to utilize...
The ever growing increase of CO2 concentration in the atmosphere is one of the main causes of global...
The water gas shift (WGS) reaction catalyzed by orthorhombic beta-Mo2C and cubic delta-MoC surfaces ...
The conversion of CO2 into methanol catalyzed by β-Mo2C and Cu/β-Mo2C surfaces has been investigated...
Mitigation of anthropogenic CO2 emissions possess a major global challenge for modern societies. Her...
The Mo carbide has been widely studied as a promising catalyst system for reverse water-gas shift re...
Our society has a problem with the use of fossil fuels, due to the vast and exceeding emissions deri...
Mo2C is an effective catalyst for chemical CO2 upgrading via reverse water-gas shift (RWGS). In this...
The adsorption and activation of a CO2 molecule on cubic d-MoC(001) and orthorhombic b-Mo2C(001) sur...
Present experiments show that synthesized polycrystalline hexagonal α-Mo2C is a highly efficient and...
Mo2C is an effective catalyst for chemical CO2 upgrading via reverse water-gas shift (RWGS). In this...
The surfaces of compound catalyst materials generally exhibit a wide range of geometric and composit...
Supported molybdenum carbide (yMo2C/M41) and Cu-promoted molybdenum carbide, using a mechanical mixi...
High-surface-area molybdenum and tungsten carbide materials, synthesised by the temperature programm...
The utilization of carbon dioxide (CO2) in chemical production has attracted global research interes...
Electrochemically converting CO2 into low-coordinated carbides provides a sustainable way to utilize...