Abstract

Electrochemical CO2 Reduction In article number 2201904 by Supawadee Namuangruk and colleagues, among newly designed homo- and hetero-dual 3d-transition metal pairs anchored graphdiyne, NiNi doped on graphdiyne is screened out as the novel high-performance catalyst for CO2 reduction to valuable products using density functional theory investigations. The catalyst showed excellent thermal stability, electrochemical stability, and the ability to suppress the competing hydrogen evolution reaction, showing its high selectivity to methane.

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