The role of CO adsorption and CuO formation on the catalyst deactivation during the long-term performance evaluation of methanol steam reforming process for hydrogen production: Comparison of sono-coprecipitation and spray pyrolysis method

“…Deactivation primarily arises from changes in the valence states of active metals, coke deposition, or the occurrence of hot sintering processes. 15–17…”

“…Deactivation primarily arises from changes in the valence states of active metals, coke deposition, or the occurrence of hot sintering processes. [15][16][17] As research and development endeavors in the eld of MSR catalysts continue to evolve, there arises an urgent demand for the development of novel and efficient catalysts. Molybdenum carbide-based catalysts have demonstrated exceptional catalytic performance across a range of reaction systems, including photocatalytic hydrogen evolution, water electrolysis, and MSR.…”

Achieving efficient almost CO-free hydrogen production from methanol steam reforming on Cu modified α-MoC

“…Deactivation primarily arises from changes in the valence states of active metals, coke deposition, or the occurrence of hot sintering processes. 15–17…”

“…Deactivation primarily arises from changes in the valence states of active metals, coke deposition, or the occurrence of hot sintering processes. [15][16][17] As research and development endeavors in the eld of MSR catalysts continue to evolve, there arises an urgent demand for the development of novel and efficient catalysts. Molybdenum carbide-based catalysts have demonstrated exceptional catalytic performance across a range of reaction systems, including photocatalytic hydrogen evolution, water electrolysis, and MSR.…”

Achieving efficient almost CO-free hydrogen production from methanol steam reforming on Cu modified α-MoC

Catalytic biodiesel production from Jatropha curcas oil: A comparative analysis of microchannel, fixed bed, and microwave reactor systems with recycled ZSM-5 catalyst

A DFT study of hydrogen adsorption on Pt modified carbon nanocone structures: Effects of modification and inclination of angles