Kunming Yunnan China
Kunming
China
Kunming University of Science and Technology
Bimetallic Catalyst, platinum, nickel, CO2 hydrogenation
carbon materials, Magnesium oxide, Hydrogen sulfide, Oxidation, room temperature
H2S, Adsorption, modification, cooper-based, anaerobic
Carbon materials, Co-pyrolysis, Porosity, Basic sites, Hydrogen sulfide
NH3-SCR, UiO-66, Ce, W, Close coupling, Reaction mechanism
NH3-SCO, Anchoring mechanisms, Cu priority anchoring, Ag0 nanoparticles, reaction mechanism
Hydrogen cyanide (HCN), Anchoring mechanism, Highly dispersed active centers, Catalytic oxidation, Reaction mechanism
HCN-catalyzed hydrolysis, TiO2-based catalyst, La2O3, Hydroxyl-rich environment, First-principles calculations
Carbon nanosheets, co-pyrolysis, Nanoholes, Desulfurization, Room temperature
reduction-aggregation, Low Ag load, Ag atoms aggregate, NH3-SCO, Catalyst stability, Water resistance
Carbon nanosheets, Co-pyrolysis, Nanoholes, Desulfurization, Room temperature
MOF-derived photocatalyst, CO2 photoreduction, TiO2@TPA composite, LMCT effect, Selective CO generation
Carbon materials, MgO nanosheet, H2S Oxidation, Room temperature
Carbon materials, MgO nanosheet, H2S Oxidation, room temperature
Dual confinement, Ti-MOF, PMS activation, Singlet oxygen, Antibiotic degradation