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Mastering the Lattice Strain in Bismuth‐Based Electrocatalysts for Efficient CO<sub>2</sub>‐to‐Formate Conversion

Xinyan Liu, Haiyan Zheng, Qiming Sun, Jingting He, Xiaohui Yao, Chunyi Sun, Guo‐Gang Shan, Min Zhang, Changyan Zhu, Zhong‐Min Su, Xinlong Wang

2024Advanced Functional Materials42 citationsDOI

Abstract

Abstract Tuning the lattice strain of catalysts represents a powerful strategy to alter their electronic structures and ultimately regulate catalytic performance. Electrocatalytic CO 2 reduction is a promising avenue to accomplish the carbon‐neutral cycle, however, there still lacks a distinct and systematic understanding of the lattice strain effect in CO 2 electrochemical conversion. In this work, the influence of lattice strain on Bi (012) facets to formate production is studied. The pre‐executed density functional theory (DFT) calculations reveal that lattice compression promotes the wrinkling of exposed Bi surface and increases the total density of state (DOS) of active sites at the Fermi level. As the gradual intensification of lattice contraction, the selectivity of CO 2 reduction exhibits a volcanic alteration, with an optimal lattice contraction of 3%. Experimentally synthesized Bi 2 O 2 CO 3 /Bi heterogeneous catalyst confirms the effect of lattice compression. When compression reaches −3.04% on Bi (012) facets, the catalyst possesses the highest Faraday efficiency (FE) of 96.17% at −1.2 V RHE and an industrially scalable current density of −600 mA cm −2 . Additionally, in seawater‐based electrolysis, the catalyst also exhibits excellent remarkable FE of 95.43% of formate production.

Topics & Concepts

Materials scienceFormateDensity functional theoryCatalysisLattice (music)NanopillarSelectivityChemical engineeringNanotechnologyChemical physicsComputational chemistryChemistryNanostructureBiochemistryEngineeringAcousticsPhysicsCO2 Reduction Techniques and CatalystsAdvanced Thermoelectric Materials and DevicesElectrocatalysts for Energy Conversion
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