Issue 35, 2024

A non-noble metal Li, Mn co-doped Ni3S2 electrocatalyst for glycerol oxidation synergistic coupling to promote the hydrogen evolution reaction

Abstract

As one of the effective methods for hydrogen production, water electrolysis has been widely studied. However, the high overpotential challenge faced by the anode and the limitation of the electron transfer rate in this process significantly inhibit the efficiency of hydrogen production, which has become the main obstacle to overcome in the current research. The use of thermodynamically more favorable organic compounds to oxidize at the anode instead of traditional water oxidation (OER) is an effective strategy to optimize the process of electrolytic hydrogen production. In this paper, Ni3S2 catalysts co-doped with non-noble metals Li and Mn were prepared on nickel foam and used for the glycerol oxidation reaction (GOR) coupled with the hydrogen evolution reaction (HER). In alkaline solution, Li, Mn–Ni3S2@NF exhibits good GOR and HER performance. Specifically, overpotentials of 1.58 V vs. RHE and 0.54 V vs. RHE are required to reach a current density of 200 mA cm−2, respectively, and the catalytic performance of the material remains good after a long-term test. Li, Mn–Ni3S2@NF as a bifunctional catalytic material oxidizes glycerol to formate, and its faradaic efficiency (FE) is as high as 91%, and the volume of hydrogen production is close to the theoretical value. In addition, the replacement of the OER by the GOR can reduce the energy consumption by about 17.44%.

Graphical abstract: A non-noble metal Li, Mn co-doped Ni3S2 electrocatalyst for glycerol oxidation synergistic coupling to promote the hydrogen evolution reaction

Supplementary files

Article information

Article type
Paper
Submitted
08 Jul 2024
Accepted
08 Aug 2024
First published
09 Aug 2024

New J. Chem., 2024,48, 15470-15482

A non-noble metal Li, Mn co-doped Ni3S2 electrocatalyst for glycerol oxidation synergistic coupling to promote the hydrogen evolution reaction

Q. Wang, X. Zhou, H. Jin, L. Guo, Y. Wu and S. Ren, New J. Chem., 2024, 48, 15470 DOI: 10.1039/D4NJ03067B

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