Cation distribution: a descriptor for hydrogen evolution electrocatalysis on transition-metal spinels

Funding Sponsor

American University in Cairo

Author's Department

Energy Materials Laboratory

Second Author's Department

Energy Materials Laboratory

Fourth Author's Department

Energy Materials Laboratory

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https://doi.org/10.1039/d4ey00121d

All Authors

Aya K. Gomaa, Maram G. Zonkol, Ghada E. Khedr, Nageh K. Allam

Document Type

Research Article

Publication Title

EES Catalysis

Publication Date

8-6-2024

doi

10.1039/d4ey00121d

Abstract

Exploring cost-effective and efficient electrocatalysts for the hydrogen evolution reaction (HER) is essential for realizing green energy technologies such as water electrolyzers and fuel cells. To this end, identifying descriptors that determine the activity of the employed catalysts would render the process more efficient and help to design selective catalytic materials. Herein, cation distribution (δ) is presented as the activity descriptor for the HER on CoFe2O4 spinels. A one-step hydrothermal synthesis method is demonstrated for the fabrication of flower-shaped spinel CoFe2O4 nanosheets on Ni foam at various pH values with different cation distributions. XPS and Raman analyses revealed the cation distribution of Co and Fe as the main factor determining the catalytic activity of the material. This has been confirmed both experimentally and computationally. The catalyst with the largest δ (0.33) showed as low as 66 mV overpotential at −10 mA cm−2 with exceptional stability for 44 hours of continuous electrolysis in 1 M KOH. Our study demonstrates cation distribution in spinels as a descriptor of their HER catalytic activity.

First Page

1293

Last Page

1305

Comments

Article. Record derived from SCOPUS.

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