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Oxygen evolution electrocatalysis resilient to voltage fluctuations

Ailong Li, Hideshi Ooka, Shuang Kong, Kiyohiro Adachi, Yuchen Zhang, Kazuna Fushimi, Satoru Hamamoto, Masaki Oura, Sun Hee Kim, Daisuke Hashizume, Ryuhei Nakamura

2025Nature Sustainability9 citationsDOIOpen Access PDF

Abstract

Renewable energy sources, such as solar and wind power, fluctuate on timescales of seconds to hours. Harnessing such intermittent energy to drive chemical synthesis represents a major challenge, as conventional 3d-block metal catalysts are prone to degradation even under small variations in operating potential. Here we report an electrochemical oxygen evolution reaction system that is tolerant to voltage fluctuations through the design of catalytic pathways. By leveraging the redox chemistry of manganese oxide, we integrated the Guyard reaction (4Mn2+ + Mn7+ → 5Mn3+) as a regeneration pathway into the catalytic cycle. Unlike other 3d-block metal catalysts, which rapidly degrade under fluctuating conditions, the constructed manganese oxide system shows resilience to voltage fluctuations by alternating between decomposition and regeneration. When the voltage is switched between 1.68 and 3.00 V repeatedly, the catalyst can maintain an oxygen evolution reaction at pH 2 for more than 2,000 h, highlighting the importance of pathway design for sustainable energy conversion from intermittent renewable sources. One major problem with renewable energy sources such as solar and wind power is their intermittent supply. Here the authors present an Earth-abundant manganese oxide electrocatalyst that is resilient to voltage fluctuations and maintains oxygen evolution reaction activities for 2,000 h.

Topics & Concepts

Oxygen evolutionElectrocatalystRenewable energyCatalysisVoltageMaterials scienceManganeseOxideOxygenElectrochemistryElectrochemical energy conversionEnergy transformationSolar energyRedoxChemistryNanotechnologyChemical energyDegradation (telecommunications)Artificial photosynthesisChemical engineeringManganese oxideWind powerRenewable fuelsInorganic chemistryElectrodeElectrocatalysts for Energy ConversionFuel Cells and Related MaterialsElectrochemical Analysis and Applications