Porous CeO2/CuO Heterostructure for Efficient Hydrogen Evolution Reaction in an Acidic Medium

K. C. Binod Raj; Samira Munkaila; Bishnu Prasad Bastakoti

doi:10.1002/open.202500115

Porous CeO2/CuO Heterostructure for Efficient Hydrogen Evolution Reaction in an Acidic Medium

K. C. Binod Raj
, Samira Munkaila
, Bishnu Prasad Bastakoti

North Carolina Agricultural and Technical State University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

A composite electrocatalyst CeO2/CuO is fabricated for the hydrogen evolution reaction (HER) via a simple, facile, one-step hydrothermal method, using F-127 as a template and structure directing agent. The prepared composite CeO2/CuO shows top-notch HER activities with a small overpotential of 98 mV at 10 mA cm−2 and just 160 mV overpotential to attain a current density of 50 mA cm−2 with good stability for 20 h in an acidic medium. The enhanced catalytic activities of CeO2/CuO nanocomposite are attributed to their synergetic interface interaction, which lead to improved conductivity, reactive sites, and oxygen vacancies in their lattices. This study aims to advance the development of earth-abundant transition metal oxides–based electrocatalysts as economical, durable, and efficient HER electrocatalysts to replace noble metal–based materials in the future.

Original language	English
Article number	e202500115
Journal	ChemistryOpen
Volume	14
Issue number	9
DOIs	https://doi.org/10.1002/open.202500115
State	Published - Sep 1 2025

Keywords

CeO2/CuO
electrocatalysts
heterostructures
hydrogen evolution reactions
oxygen vacancies

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10.1002/open.202500115

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title = "Porous CeO2/CuO Heterostructure for Efficient Hydrogen Evolution Reaction in an Acidic Medium",

abstract = "A composite electrocatalyst CeO2/CuO is fabricated for the hydrogen evolution reaction (HER) via a simple, facile, one-step hydrothermal method, using F-127 as a template and structure directing agent. The prepared composite CeO2/CuO shows top-notch HER activities with a small overpotential of 98 mV at 10 mA cm−2 and just 160 mV overpotential to attain a current density of 50 mA cm−2 with good stability for 20 h in an acidic medium. The enhanced catalytic activities of CeO2/CuO nanocomposite are attributed to their synergetic interface interaction, which lead to improved conductivity, reactive sites, and oxygen vacancies in their lattices. This study aims to advance the development of earth-abundant transition metal oxides–based electrocatalysts as economical, durable, and efficient HER electrocatalysts to replace noble metal–based materials in the future.",

keywords = "CeO2/CuO, electrocatalysts, heterostructures, hydrogen evolution reactions, oxygen vacancies",

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AU - Binod Raj, K. C.

AU - Munkaila, Samira

AU - Bastakoti, Bishnu Prasad

PY - 2025/9/1

Y1 - 2025/9/1

N2 - A composite electrocatalyst CeO2/CuO is fabricated for the hydrogen evolution reaction (HER) via a simple, facile, one-step hydrothermal method, using F-127 as a template and structure directing agent. The prepared composite CeO2/CuO shows top-notch HER activities with a small overpotential of 98 mV at 10 mA cm−2 and just 160 mV overpotential to attain a current density of 50 mA cm−2 with good stability for 20 h in an acidic medium. The enhanced catalytic activities of CeO2/CuO nanocomposite are attributed to their synergetic interface interaction, which lead to improved conductivity, reactive sites, and oxygen vacancies in their lattices. This study aims to advance the development of earth-abundant transition metal oxides–based electrocatalysts as economical, durable, and efficient HER electrocatalysts to replace noble metal–based materials in the future.

AB - A composite electrocatalyst CeO2/CuO is fabricated for the hydrogen evolution reaction (HER) via a simple, facile, one-step hydrothermal method, using F-127 as a template and structure directing agent. The prepared composite CeO2/CuO shows top-notch HER activities with a small overpotential of 98 mV at 10 mA cm−2 and just 160 mV overpotential to attain a current density of 50 mA cm−2 with good stability for 20 h in an acidic medium. The enhanced catalytic activities of CeO2/CuO nanocomposite are attributed to their synergetic interface interaction, which lead to improved conductivity, reactive sites, and oxygen vacancies in their lattices. This study aims to advance the development of earth-abundant transition metal oxides–based electrocatalysts as economical, durable, and efficient HER electrocatalysts to replace noble metal–based materials in the future.

KW - CeO2/CuO

KW - electrocatalysts

KW - heterostructures

KW - hydrogen evolution reactions

KW - oxygen vacancies

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Porous CeO2/CuO Heterostructure for Efficient Hydrogen Evolution Reaction in an Acidic Medium

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Keywords

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