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Inversely Tuning the CO<sub>2</sub>Electroreduction and Hydrogen Evolution Activity on Metal Oxide via Heteroatom Doping

Jiajun Wang, Guangjin Wang, Jinfeng Zhang, Yidu Wang, Han‐Chun Wu, Xuerong Zheng, Jia Ding, Xiaopeng Han, Yida Deng, Wenbin Hu

2021Angewandte Chemie International Edition117 citationsDOI

Abstract

Abstract Tuning the electronic states near the Fermi level can effectively facilitate the reaction kinetics. However, elucidating the role of a specific electronic state of metal oxide in simultaneously regulating the CO 2 electroreduction reaction (CO 2 RR) and competing hydrogen evolution reaction (HER) is still rare, making it difficult to accurately predict the practical CO 2 RR performance. Herein, replacing the Zn site by heteroatoms with different outer electrons (Mo and Cu) is found to tune both occupied and unoccupied orbitals near the Fermi level of ZnO. Moreover, the different electronic states significantly modulate both CO 2 RR and HER activity with a totally inverse trend, thus dramatically tuning the practical CO 2 RR performance. In parallel, the correlation between electronic states, reaction free energies and practical activity is demonstrated. This work provides a possibility for engineering efficient CO 2 RR eletrocatalysts through tunable composition and electronic structures.

Topics & Concepts

HeteroatomFermi levelOxideAtomic orbitalElectronic structureMaterials scienceMetalDopingComputational chemistryChemical physicsChemistryPhotochemistryElectronOptoelectronicsPhysicsOrganic chemistryQuantum mechanicsRing (chemistry)MetallurgyCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionIonic liquids properties and applications
Inversely Tuning the CO<sub>2</sub>Electroreduction and Hydrogen Evolution Activity on Metal Oxide via Heteroatom Doping | Litcius