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Literature DB >> 32421894

Metal-Organic Layers Leading to Atomically Thin Bismuthene for Efficient Carbon Dioxide Electroreduction to Liquid Fuel.

Changsheng Cao^1,2, Dong-Dong Ma¹, Jia-Fang Gu³, Xiuyuan Xie¹, Guang Zeng¹, Xiaofang Li¹, Shu-Guo Han^1,2, Qi-Long Zhu¹, Xin-Tao Wu¹, Qiang Xu^4,5.

Abstract

Electrochemical reduction of CO2 to valuable fuels is appealing for CO2 fixation and energy storage. However, the development of electrocatalysts with high activity and selectivity in a wide potential window is challenging. Herein, atomically thin bismuthene (Bi-ene) is pioneeringly obtained by an in situ electrochemical transformation from ultrathin bismuth-based metal-organic layers. The few-layer Bi-ene, which possesses a great mass of exposed active sites with high intrinsic activity, has a high selectivity (ca. 100 %), large partial current density, and quite good stability in a potential window exceeding 0.35 V toward formate production. It even deliver current densities that exceed 300.0 mA cm-2 without compromising selectivity in a flow-cell reactor. Using in situ ATR-IR spectra and DFT analysis, a reaction mechanism involving HCO3 - for formate generation was unveiled, which brings new fundamental understanding of CO2 reduction.

Entities: Chemical Gene

Keywords: CO2 reduction; bismuthene; electrocatalysis; flow cells; metal-organic layers

Year: 2020 PMID： 32421894 DOI： 10.1002/anie.202005577

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

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Review 5. An Investigation of Active Sites for electrochemical CO₂ Reduction Reactions: From In Situ Characterization to Rational Design.

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Review 6. Anode Catalysts in CO₂ Electrolysis: Challenges and Untapped Opportunities.

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7. Operando Converting BiOCl into Bi₂O₂(CO₃)_xCl_y for Efficient Electrocatalytic Reduction of Carbon Dioxide to Formate.

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Journal: Nanomicro Lett Date: 2022-05-03