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Magnetic Field Modulated Intrinsic Charge and Spin Ordering in Ferromagnetic Electrocatalysts for Rechargeable Zn–Air Battery

Jinmei Qian, Hong Zhang, Gaoyang Li, Lei Jia, Xuebing Peng, Chenglin Zhong, Feng Li, Dongliang Chao, Daqiang Gao

2023Advanced Functional Materials32 citationsDOIOpen Access PDF

Abstract

Abstract Magnetic field‐enhanced electrocatalytic activity has recently emerged as an effective strategy for electrocatalytic reactions. However, modulating the electrical behavior and spin ordering in real‐time using magnetic field during the electrocatalytic process remains challenging. Herein, based on the coexistence of room‐temperature ferromagnetic and magnetoresistance (MR) properties in La 1−x Sr x MnO 3 , it demonstrates that in addition to spin polarization, the negative MR effect contributes significantly to the enhancement of the oxygen evolution reaction (OER) owing to the considerable MR value (−7.32% for La 0.8 Sr 0.2 MnO 3 at 1.0 T). Accordingly, a lessened OER overpotential of ≈120 mV (at 10 mA cm −2 ) and a reduced charge‐transfer resistance are observed in La 0.8 Sr 0.2 MnO 3 under a magnetic field of 1.0 T. Additionally, the power density of self‐assembled Zn–air battery (ZnAB) based on La 0.8 Sr 0.2 MnO 3 improves by 5.9 times under 1.0 T. Calculation results reveal that spin alignment can induce more unoccupied electronic states near the Fermi level, decrease the energy level of the Mn d ‐band center, and significantly reduce the O * formation barrier to enhance the OER activity of Sr‐doped LaMnO 3 . Thus, the in situ regulation of charge and spin ordering by magnetic field offers a deeper understanding for designing high‐performance ZnABs.

Topics & Concepts

Materials scienceMagnetoresistanceFerromagnetismOverpotentialCondensed matter physicsOxygen evolutionMagnetic fieldDopingElectrodeOptoelectronicsElectrochemistryPhysical chemistryChemistryPhysicsQuantum mechanicsElectrocatalysts for Energy ConversionAdvanced battery technologies researchPerovskite Materials and Applications