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Pseudo‐Jahn–Teller Effect Breaks the pH Dependence in Two‐Electron Oxygen Electroreduction

Baokai Xia, Jiale Du, Ming Li, Jingjing Duan, Sheng Chen

2024Advanced Materials16 citationsDOIOpen Access PDF

Abstract

Abstract The hydrogenation of small molecules (like O 2 and CO 2 ) often exhibits strong activity dependence on pHs because of discrepant proton donor environments. However, some catalysts can show seldom dependence on two‐electron oxygen electroreduction, a sustainable route of O 2 hydrogenation to hydrogen peroxide (H 2 O 2 ). In this work, a pH‐resistant oxygen electroreduction system arising from the pseudo‐Jahn–Teller effect is demonstrated. Thorough operando Raman spectra, local environment analyses and density function theory simulations, the lattice distortion of TiO x F y that introduces the pseudo‐Jahn–Teller effect contributing to regulating local pHs at electrode–electrolyte interfaces and the absorption/desorption of key *OOH intermediate is revealed. Consequently, as comparison to 78.6% activity attenuation for common catalyst, the TiO x F y displays minor activity decay (3.2%) in the pH range of 1–13 with remarkable Faradaic efficiencies (93.4–96.4%) and H 2 O 2 yield rates (595–614 mg cm −2 h −1 ) in the current densities of 100–1000 mA cm −2 . Further techno‐economics analyses display the H 2 O 2 production cost dependent on pHs, giving the lowest H 2 O 2 price of $0.37 kg −1 . The present finding is expected to provide an additional dimension to pseudo‐Jahn–Teller effect that leverages systems beyond traditional conception.

Topics & Concepts

Jahn–Teller effectCatalysisMaterials scienceOxygenDesorptionElectrochemistryHydrogen peroxideElectrolyteRaman spectroscopyYield (engineering)Inorganic chemistryElectrodePhysical chemistryIonChemistryAdsorptionPhysicsOrganic chemistryOpticsMetallurgyElectrocatalysts for Energy ConversionElectrochemical Analysis and ApplicationsAdvanced battery technologies research
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