Cobalt Doping in MOF-Derived Carbon-Loaded Tin Nanomaterials for Enhanced Electrocatalytic CO₂ Reduction

Abstract: Among many catalysts for the electrochemical reduction of CO2, bimetallic materials have been paid more attention on enhanced catalytic activity and product selectivity. Sn is considered as an optional catalyst with excellent application potential due to its high selectivity for formate, low toxicity, low cost, and abundant reserves, which has been widely studied in recent years. However, the catalytic properties of cobalt–tin bimetallic composites have not been reported. In this study, we successfully synthes… Show more

“…In recent years, carbon-based catalysts have emerged as a cost-effective alternative to traditional precious metal catalysts, attracting wide attention and a research boom in the catalysis community. − For CO 2 RR, combining carbon-based materials with metals, metal compounds, alloys, and monodisperse metal atoms is a promising approach for developing efficient electrocatalysts. − As a nonprecious metal catalyst, carbon-supported copper (Cu) metal material has garnered significant research interest in the direction of CO 2 RR . For example, Han et al have successfully designed nitrogen-doped carbon-supported Cu nanoparticles (Cu-np/NC), which demonstrated the superior performance in the electrochemical reduction of CO 2 to CH 4 .…”

Hydrophobic Nitrogen-Doped Nanocarbon with Cu–Ni Alloy Sites as a Catalyst for CO₂ Electroreduction

“…In recent years, carbon-based catalysts have emerged as a cost-effective alternative to traditional precious metal catalysts, attracting wide attention and a research boom in the catalysis community. − For CO 2 RR, combining carbon-based materials with metals, metal compounds, alloys, and monodisperse metal atoms is a promising approach for developing efficient electrocatalysts. − As a nonprecious metal catalyst, carbon-supported copper (Cu) metal material has garnered significant research interest in the direction of CO 2 RR . For example, Han et al have successfully designed nitrogen-doped carbon-supported Cu nanoparticles (Cu-np/NC), which demonstrated the superior performance in the electrochemical reduction of CO 2 to CH 4 .…”

Hydrophobic Nitrogen-Doped Nanocarbon with Cu–Ni Alloy Sites as a Catalyst for CO₂ Electroreduction

Highly dispersed nickel-copper bimetallic catalysts prepared by monolayer NiCu-layered double hydroxide nanocomposites for CO2 electrocatalytic reduction

Modulating the MOF Coordination Environment to Derive Nanoparticles for CO₂ Electroreduction to Formate