Hsiao-Yun Liu scite author profile

Hsiao-Yun Liu

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National Central University

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Selective Formate Production from the Electrochemical CO₂ Reduction Reaction of Surface Oxide-Modified InSn₄ Binary Catalysts

Liu

Lin

Lee

et al. 2022

ACS Appl. Energy Mater.

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The electrochemical CO 2 reduction reaction (CO 2 RR) which produces high value-added products is regarded as a prospective path toward carbon cycling. However, the challenges in the electrochemical CO 2 RR are its competition to the hydrogen evolution reaction (HER) and unsatisfied product selectivity. Therefore, the design and preparation of highly effective catalysts with low overpotential, high faradaic efficiency (FE), and high selectivity are key considerations for the development of the CO 2 RR technology. In this research, binary In−Sn catalysts with In/Sn atomic ratios of 3/1 and 1/1 have been prepared. In−Sn nanoparticles (NPs) are composed of In and InSn 4 with some surface In and Sn oxides. Sn addition enhances the partial current density of formate production during the CO 2 RR. In 3 Sn/C NPs show outstanding performance with a HCOOH FE of 92.6% and excellent durability for 10 h at −1.0 V. In addition, the comparison of the binary In 3 Sn/C and physical mixture (In/C and SnO 2 /C) highlights that In 4 Sn is responsible for the high activity and stability of formate conversion. This research provides guidelines for the design of CO 2 RR catalysts with high formate conversion by optimization of compositions and structures of InSn NPs.

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Reaction Pathways for the Highly Selective and Durable Electrochemical Co2 to Co Conversion on Zno Enclosed Ag Nanoparticles in Kcl Electrolyte

et al. 2022

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Hsiao-Yun Liu

Selective Formate Production from the Electrochemical CO₂ Reduction Reaction of Surface Oxide-Modified InSn₄ Binary Catalysts

Reaction Pathways for the Highly Selective and Durable Electrochemical Co2 to Co Conversion on Zno Enclosed Ag Nanoparticles in Kcl Electrolyte

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Hsiao-Yun Liu

Selective Formate Production from the Electrochemical CO2 Reduction Reaction of Surface Oxide-Modified InSn4 Binary Catalysts

Reaction Pathways for the Highly Selective and Durable Electrochemical Co2 to Co Conversion on Zno Enclosed Ag Nanoparticles in Kcl Electrolyte

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Selective Formate Production from the Electrochemical CO₂ Reduction Reaction of Surface Oxide-Modified InSn₄ Binary Catalysts