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Optimizing Acidic Oxygen Evolution with Manganese-Doped Ruthenium Dioxide Assembly

Ke Jia, Yujin Ji, Da Liu, Jinxin Chen, Yue Wang, Youyong Li, Zhiwei Hu, Wei‐Hsiang Huang, Qi Shao, Jianmei Lu

2024ACS Applied Materials & Interfaces12 citationsDOI

Abstract

Ruthenium dioxide (RuO 2 ) is one of the promising catalysts for the acidic oxygen evolution reaction (OER). However, designing RuO 2 catalysts with good activity and stability remains a significant challenge. In this work, we propose the manganese (Mn)-doped RuO 2 assembly as a catalyst for the OER with improved activity and stability. Consequently, the optimized 7% Mn-RuO 2 exhibits exceptional OER activity in 0.5 M H 2 SO 4, delivering a low overpotential of 195 mV to achieve a current density of 10 mA cm –2 . Furthermore, it displays the highest mass activity among all the tested catalysts, reaching 587.9 A g Ru –1 at 1.5 V versus the reversible hydrogen electrode (vs RHE), which is 7.8 and 139.8 times higher than those of undoped RuO 2 and commercial RuO 2, respectively. Moreover, 7% Mn-RuO 2 demonstrates remarkable stability over a continuous operation to 100 h (at 10 mA cm –2 ) without significant performance attenuation. Additionally, theoretical calculations indicate that Mn doping weakens the adsorption of the OER intermediates and modifies the potential-determining step (PDS) of the OER, thereby reducing the OER overpotential. Consequently, strategies involving Mn doping can effectively enhance the overall kinetics of the OER. This work offers a promising approach for the design of efficient water electrolysis catalysts.

Topics & Concepts

ManganeseMaterials scienceRutheniumOxygen evolutionOxygenDopingInorganic chemistryCarbon dioxideChemical engineeringCatalysisOrganic chemistryMetallurgyElectrochemistryChemistryElectrodePhysical chemistryOptoelectronicsEngineeringElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsElectrochemical Analysis and Applications
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