The interaction of methane with pristine surfaces of bulk MoC and Mo2C is known to be weak. In contrast, a series of X-ray photoelectron spectroscopy (XPS) experiments, combined with thermal desorption mass spectroscopy (TDS), for MoCy (y = 0.5-1.3) nanoparticles supported on Au(111)¿which is completely inert towards CH4¿show that these systems adsorb and dissociate CH4 at room temperature and low CH4 partial pressure. This industrially-relevant finding has been further investigated with accurate density functional theory (DFT) based calculations on a variety of MoCy supported model systems. The DFT calculations reveal that the MoCy/Au(111) systems can feature low C-H bond scission energy barriers, smaller than the CH4 adsorption energy. Ou...
The structure and density of Mo species in Mo/H-ZSM5 during catalytic CH4 reactions was investigated...
The conversion of CO2 into methanol catalyzed by β-Mo2C and Cu/β-Mo2C surfaces has been investigated...
The mechanism of methane activation on Mo/HZSM-5 is not yet fully understood, despite the great inte...
Based on periodic Density Functional Theory (DFT) calculations, carried out using a standard general...
Methane is an abundant resource existing in the form of natural and shale gas, and molybdenum-based ...
Methane is an extremely stable molecule, a major component of natural gas, and also one of the most ...
The clean activation of methane at low temperatures remains an eminent challenge and a field of comp...
Methane dehydrogenation and C–C coupling reactions to form ethylene on two different carbide cluster...
Over the recent decades, several studies revealed the precarious climate situation which is threaten...
The separation of carbon dioxide (CO2) from methane (CH4) is critical in biogas upgrading, requiring...
The two-dimensional morphology of molybdenum oxycarbide (2D-Mo2COx) nanosheets dispersed on silica i...
Methane is the primary component of natural gas, coal bed gases, shale gas and natural gas hydrates,...
Mechanistic aspects of the C–H bond activation of methane by metal-carbide cations MC+ of the 3d tra...
Methane conversion offers hydrocarbon building blocks of high market value, which are easier to tran...
Non-oxidative coupling of methane (NOCM) is a sought-after reaction that has been studied for decade...
The structure and density of Mo species in Mo/H-ZSM5 during catalytic CH4 reactions was investigated...
The conversion of CO2 into methanol catalyzed by β-Mo2C and Cu/β-Mo2C surfaces has been investigated...
The mechanism of methane activation on Mo/HZSM-5 is not yet fully understood, despite the great inte...
Based on periodic Density Functional Theory (DFT) calculations, carried out using a standard general...
Methane is an abundant resource existing in the form of natural and shale gas, and molybdenum-based ...
Methane is an extremely stable molecule, a major component of natural gas, and also one of the most ...
The clean activation of methane at low temperatures remains an eminent challenge and a field of comp...
Methane dehydrogenation and C–C coupling reactions to form ethylene on two different carbide cluster...
Over the recent decades, several studies revealed the precarious climate situation which is threaten...
The separation of carbon dioxide (CO2) from methane (CH4) is critical in biogas upgrading, requiring...
The two-dimensional morphology of molybdenum oxycarbide (2D-Mo2COx) nanosheets dispersed on silica i...
Methane is the primary component of natural gas, coal bed gases, shale gas and natural gas hydrates,...
Mechanistic aspects of the C–H bond activation of methane by metal-carbide cations MC+ of the 3d tra...
Methane conversion offers hydrocarbon building blocks of high market value, which are easier to tran...
Non-oxidative coupling of methane (NOCM) is a sought-after reaction that has been studied for decade...
The structure and density of Mo species in Mo/H-ZSM5 during catalytic CH4 reactions was investigated...
The conversion of CO2 into methanol catalyzed by β-Mo2C and Cu/β-Mo2C surfaces has been investigated...
The mechanism of methane activation on Mo/HZSM-5 is not yet fully understood, despite the great inte...