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Local Electronic Structure Regulation Enabling Fluorophosphates Cathode with Improved Redox Potential and Reversible Capacity for Sodium-Ion Batteries

Huiqin Huang, Yufan Xia, Youchen Hao, Haosheng Li, Muhammad Yousaf, Sikandar Iqbal, Hongge Pan, Yan Mi, Yinzhu Jiang

2024Journal of the American Chemical Society56 citationsDOI

Abstract

Mn-based fluorophosphates have attracted much attention as cathodes for sodium-ion batteries owing to their high cost effectiveness, considerable capacity, and stable framework. However, the fascinating Mn 3+/2+ redox couple suffers from inadequate activation due to the Mn–O covalent character and poor electronic conductivity, impeding its further applications. Herein, a local electronic structure regulation strategy is proposed to improve the Mn 3+/2+ redox potential and reversible capacity simultaneously through introducing elements with low-energy 3d orbitals to expand the energy gap between the e g orbitals and Fermi energy of Na. Moreover, the 3d element substitution serves to narrow the band gap toward the improved intrinsic electronic conductivity. In comparison with pristine Na 2 Fe 0.45 Mn 0.55 PO 4 F, the as-prepared Na 2 Fe 0.45 Mn 0.4 V 0.1 PO 4 F cathode achieves an increase from 3.5 to 3.6 V in the high-voltage platform and an improvement in energy density from 330 to 361 Wh kg –1 . This work inspires new ideas in adjusting the redox potential of polyanionic cathodes through deliberate regulation of the local electronic structure.

Topics & Concepts

ChemistryRedoxCathodeIonSodiumInorganic chemistryChemical engineeringOrganic chemistryPhysical chemistryEngineeringAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research