Liquid Nitrogen Sources Assisting Gram‐Scale Production of Single‐Atom Catalysts for Electrochemical Carbon Dioxide Reduction

Beibei An; Jingsheng Zhou; Liangjing Duan; Xiao Liu; Guanyao Yu; Tiegang Ren; Xugeng Guo; Yuanyuan Li; Hans Ågren; Li Wang; Jinglai Zhang

doi:10.1002/advs.202205639

Advanced Science (Apr 2023)

Liquid Nitrogen Sources Assisting Gram‐Scale Production of Single‐Atom Catalysts for Electrochemical Carbon Dioxide Reduction

Beibei An,
Jingsheng Zhou,
Liangjing Duan,
Xiao Liu,
Guanyao Yu,
Tiegang Ren,
Xugeng Guo,
Yuanyuan Li,
Hans Ågren,
Li Wang,
Jinglai Zhang

Affiliations

Beibei An: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Jingsheng Zhou: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Liangjing Duan: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Xiao Liu: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Guanyao Yu: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Tiegang Ren: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Xugeng Guo: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Yuanyuan Li: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Hans Ågren: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Li Wang: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China
Jinglai Zhang: Henan Province Engineering Research Center of Green Anticorrosion Technology for Magnesium Alloys Henan University Kaifeng Henan 475004 P. R. China

DOI: https://doi.org/10.1002/advs.202205639
Journal volume & issue: Vol. 10, no. 11
pp. n/a – n/a

Abstract

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Abstract Developing metal‐nitrogen‐carbon (M‐N‐C)‐based single‐atom electrocatalysts for carbon dioxide reduction reaction (CO2RR) have captured widespread interest because of their outstanding activity and selectivity. Yet, the loss of nitrogen sources during the synthetic process hinders their further development. Herein, an effective strategy using 1‐butyl‐3‐methylimidazolium tetrafluoroborate ([BMIM][BF4]) as a liquid nitrogen source to construct a nickel single‐atom electrocatalyst (Ni‐SA) with well‐defined Ni‐N4 sites on a carbon support (denoted as Ni‐SA‐BB/C) is reported. This is shown to deliver a carbon monoxide faradaic efficiency of >95% over a potential of −0.7 to −1.1 V (vs reversible hydrogen electrode) with excellent durability. Furthermore, the obtained Ni‐SA‐BB/C catalyst possesses higher nitrogen content than the Ni‐SA catalyst prepared by conventional nitrogen sources. Importantly, only thimbleful Ni nanoparticles (Ni‐NP) are contained in the large‐scale‐prepared Ni‐SA‐BB/C catalyst without acid leaching, and with only a slight decrease in the catalytic activity. Density functional theory calculations indicate a salient difference between Ni‐SA and Ni‐NP in the catalytic performance toward CO2RR. This work introduces a simple and amenable manufacturing strategy to large‐scale fabrication of nickel single‐atom electrocatalysts for CO2‐to‐CO conversion.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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