Understanding the synergistic catalysis in hydrogenation of carbonyl groups on Cu-based catalysts
QN Wang, R Duan, Z Feng, Y Zhang, P Luan… - ACS …, 2024 - ACS Publications
Understanding the synergy of Cu0 and Cu+ in hydrogenation reactions is indispensable for
reasonably modulating the product distributions and improving the catalyst design. Herein …
reasonably modulating the product distributions and improving the catalyst design. Herein …
Bifunctional core–shell co-catalyst for boosting photocatalytic CO2 reduction to CH4
F Dai, M Zhang, J Han, Z Li, S Feng, J Xing, L Wang - Nano Research, 2024 - Springer
Solar-light-driven CO2 reduction CO to CH4 and C2H6 is a complex process involving
multiple elementary reactions and energy barriers. Therefore, achieving high CH4 activity …
multiple elementary reactions and energy barriers. Therefore, achieving high CH4 activity …
Electron Localization‐Triggered Proton Pumping Toward Cu Single Atoms for Electrochemical CO2 Methanation of Unprecedented Selectivity
Z Guo, P Zhou, L Jiang, S Liu, Y Yang, Z Li… - Advanced …, 2024 - Wiley Online Library
Slow multi‐proton coupled electron transfer kinetics and unexpected desorption of
intermediates severely hinder the selectivity of CO2 methanation. In this work, a one‐stone …
intermediates severely hinder the selectivity of CO2 methanation. In this work, a one‐stone …
[HTML][HTML] Electrochemical CO2 reduction: Implications of electrocatalyst's surface hydroxyl groups
Abstract Electrochemical CO 2 reduction (ECCO 2 R) is a viable and promising approach for
converting the greenhouse gas carbon dioxide into useful chemicals and fuels …
converting the greenhouse gas carbon dioxide into useful chemicals and fuels …