Spindle-Shaped Cobalt-Doped Iron Phosphide Anchored on Three-Dimensional Graphene Electrocatalysis for Hydrogen Evolution Reactions in Both Acidic and Alkaline Media

27 Pages Posted: 22 Sep 2022

See all articles by Shenqi Wei

Shenqi Wei

affiliation not provided to SSRN

Pingxing Xing

affiliation not provided to SSRN

Zijie Tang

affiliation not provided to SSRN

Yuanyuan Wang

affiliation not provided to SSRN

Liyi Dai

affiliation not provided to SSRN

Abstract

Exploitation earth-abundant, highly active, and noble metal-free electrocatalysts to utilize water splitting for hydrogen production over a broad pH range remains a substantial challenge. Herein, we report a spindle-like high-performance electrocatalyst of Co-doped FeP supported on three-dimensional framework reduced graphene oxide (Co-FeP/3D RGO) using the earth-abundant materials iron-based and carbon-based. The porous internet-like graphene not only provides a three-dimensional framework for FeP growth to prevent its aggregation, but also accelerates its electrical conductivity and stability, and the doping of heteroatomic Co further enhances the intrinsic activity of FeP. As expected, Co-FeP/3D RGO demonstrates lower hydrogen evolution reaction (HER) overpotential ( η 10 =110.8 mV) and Tafel slope (53 mV dec -1 ) in the acidic electrolyte and still reveals low overpotential (137 and 190 mV) at 20 and 50 mA cm -2 . In addition, the catalyst also has well HER activity and stability in the alkaline electrolyte. This work may provide more opportunities and potential value for the rational design of HER electrocatalysts with a wide pH range of abundant non-precious metals on the earth.

Keywords: three-dimensional graphene, hydrogen evolution reaction, wide pH range, electrocatalysis

Suggested Citation

Wei, Shenqi and Xing, Pingxing and Tang, Zijie and Wang, Yuanyuan and Dai, Liyi, Spindle-Shaped Cobalt-Doped Iron Phosphide Anchored on Three-Dimensional Graphene Electrocatalysis for Hydrogen Evolution Reactions in Both Acidic and Alkaline Media. Available at SSRN: https://ssrn.com/abstract=4226816 or http://dx.doi.org/10.2139/ssrn.4226816

Shenqi Wei

affiliation not provided to SSRN ( email )

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Pingxing Xing

affiliation not provided to SSRN ( email )

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Zijie Tang

affiliation not provided to SSRN ( email )

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Yuanyuan Wang (Contact Author)

affiliation not provided to SSRN ( email )

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Liyi Dai

affiliation not provided to SSRN ( email )

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