Highly‐Efficient CO2 Electromethanation with Extremely Low Overpotentials on Pt/C Catalysts: Strategic Design of Multi‐Potential‐Step Method

Highly‐Efficient CO2 Electromethanation with Extremely Low Overpotentials on Pt/C Catalysts: Strategic Design of Multi‐Potential‐Step Method

Abstract This paper proposes a new idea for dramatically increasing the efficiency of CO2 reduction to CH4 at Pt/C electrocatalysts with negligibly low overpotentials. Pt catalysts have typically been disregarded in favor of other metal catalysts for CO2 reduction due to their poor performances. How...

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Bibliographic Details
Main Authors: Dr. Shofu Matsuda, Taito Sakoda, Ryu Ishibashi, Prof. Dr. Minoru Umeda
Format: Article
Language:English
Published: Wiley-VCH 2022-11-01
Series:ChemElectroChem
Subjects:
CH4 production
CO2 reduction
faradaic efficiency
membrane electrode assembly
platinum electrocatalyst
Online Access:https://doi.org/10.1002/celc.202200837
Description
Summary:Abstract This paper proposes a new idea for dramatically increasing the efficiency of CO2 reduction to CH4 at Pt/C electrocatalysts with negligibly low overpotentials. Pt catalysts have typically been disregarded in favor of other metal catalysts for CO2 reduction due to their poor performances. However, our strategically‐designed, multi‐potential‐step method, using a membrane electrode assembly with Pt/C catalysts, allows CO2 to be electrocatalytically converted to CH4 at close to the theoretical electrode potential with a net faradaic efficiency of 59.8±9.7 %. This approach is relevant and important because it provides a method of simultaneously ameliorating CO2 buildup and generating useful products.
ISSN:2196-0216

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