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Heteroatom-Doped Nickel Sulfide for Efficient Electrochemical Oxygen Evolution Reaction

Author

Listed:
  • Xingqun Zheng

    (College of Safety Engineering, Chongqing University of Science & Technology, Chongqing 401331, China
    State Key Laboratory of Power Transmission Equipment & System Security and New Technology, College of Chemistry and Chemical Engineering, Chongqing Univerisity, Chongqing 400044, China)

  • Ling Zhang

    (State Key Laboratory of Power Transmission Equipment & System Security and New Technology, College of Chemistry and Chemical Engineering, Chongqing Univerisity, Chongqing 400044, China)

  • Wei He

    (Department of Electrical Engineering and Computer Science, South Dakota State University, Brookings, SD 57007, USA)

  • Li Li

    (State Key Laboratory of Power Transmission Equipment & System Security and New Technology, College of Chemistry and Chemical Engineering, Chongqing Univerisity, Chongqing 400044, China)

  • Shun Lu

    (Department of Agricultural Engineering, South Dakota State University, Brookings, SD 57007, USA
    Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, Chongqing 400714, China)

Abstract

Heteroatom doping is an effective strategy to regulate electrocatalysts for the oxygen evolution reaction (OER). Nonmetal heteroatoms can effectively engineer geometric and electronic structures and activating surface sites of catalysts due to their unique radius and the electronegativity of nonmetal atoms. Hence, the surface geometric and electronic structure and activity of nonmetal atoms (X, X = B, C, N, O, P)-doped Ni 3 S 2 (X-Ni 3 S 2 ) were studied to screen high-performance Ni 3 S 2 -based OER electrocatalysts through density functional theory calculation. Theoretical results demonstrated that dopants in X-Ni 3 S 2 can alter bond length and charge of surface, modify active sites for intermediates adsorption, and adjust the theoretical overpotential. Among all dopants, C can effectively modulate surface structure, activate surface sites, weaken the adsorption of key intermediates, decrease theoretical overpotential, and enable C-Ni 3 S 2 with the best theoretical OER activity among all X-Ni 3 S 2 with the lowest theoretical overpotential (0.46 eV). Further experimental results verified that the synthesized C-Ni 3 S 2 performed an improved OER activity in the alkaline condition with a considerably enhanced overpotential of 261 mV at 10 mA cm −2 as well as a Tafel slope of 95 mV dec −1 compared to pristine Ni 3 S 2 .

Suggested Citation

  • Xingqun Zheng & Ling Zhang & Wei He & Li Li & Shun Lu, 2023. "Heteroatom-Doped Nickel Sulfide for Efficient Electrochemical Oxygen Evolution Reaction," Energies, MDPI, vol. 16(2), pages 1-14, January.
  • Handle: RePEc:gam:jeners:v:16:y:2023:i:2:p:881-:d:1033706
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    Citations

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    Cited by:

    1. Yi Zeng & Xueqiang Qi & Shun Lu & Mohamed N. Khalil & Xiuxiu Dong & Haoqi Wang, 2024. "Defect Engineering of Nickel-Based Compounds for Energy-Saving H 2 Production," Energies, MDPI, vol. 17(15), pages 1-24, August.
    2. Yucheng Wang & Yanan Wu & Xingqun Zheng & Shun Lu, 2023. "Ice-Templated Method to Promote Electrochemical Energy Storage and Conversion: A Review," Energies, MDPI, vol. 16(9), pages 1-22, May.

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