Enhanced Hydrogen Evolution Using β-MnO2 Monolayer on Ni Electrode with Engineered Oxygen Vacancies

Abstract

Developing cost-effective and high-performance electrodes is critical for advancing hydrogen (H2) production through electrochemical water splitting. In this study, we present a novel electrode design by depositing a β-MnO2 monolayer on a conventional Ni(100) substrate (MnO2(110)/Ni(100)) and systematically investigate its electrocatalytic properties. This work uniquely explores the influence of oxygen vacancies (OVs) at distinct sites -- Osub-top and bridge sites -- on both the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). Our findings reveal that the Osub-top vacancy (OOV-MnO2(110)/Ni(100)) significantly enhances HER activity, achieving a hydrogen Gibbs free energy ( G H) of -0.015 eV, which surpasses the performance of noble metals such as Pt/C (-0.082 eV) and Ir (-0.08 eV). Additionally, the cathodic exchange current density (J0,c) of OOV-MnO2(110)/Ni(100) reaches 10-0.774 Acm-2, outperforming Pt/C (10-0.92 Acm-2) and Ir (10-1.44 Acm-2). Electrochemical analysis confirms a cathodic activation overpotential (ηa,c) of 0.141 V at 10 mAcm-2 in a 0.5 M H2SO4 solution, achieving a hydrogen production rate (HPR) of 0.91 mmolh-1cm-2 at an applied voltage (V app) of 1.60 V. This study provides the first comprehensive analysis of site-specific oxygen vacancy effects on bifunctional MnO2-based electrodes, demonstrating superior HER activity while maintaining dual functionality for both cathodic and anodic processes. Our results highlight the potential of engineered oxygen vacancies to develop low-cost, high-efficiency electrodes for sustainable hydrogen production, offering a competitive alternative to precious metal-based catalysts.

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