Hajime Arai scite author profile

The phase transition between LiFePO4 and FePO4 during nonequilibrium battery operation was tracked in real time using time-resolved X-ray diffraction. In conjunction with increasing current density, a metastable crystal phase appears in addition to the thermodynamically stable LiFePO4 and FePO4 phases. The metastable phase gradually diminishes under open-circuit conditions following electrochemical cycling. We propose a phase transition path that passes through the metastable phase and posit the new phase's role in decreasing the nucleation energy, accounting for the excellent rate capability of LiFePO4. This study is the first to report the measurement of a metastable crystal phase during the electrochemical phase transition of LixFePO4.

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Characterization and cathode performance of Li1 − xNi1 + xO2 prepared with the excess lithium method

Arai¹

1995

Solid State Ionics

348

223

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Direct observation of reversible oxygen anion redox reaction in Li-rich manganese oxide, Li₂MnO₃, studied by soft X-ray absorption spectroscopy

et al. 2016

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Synthesis, redox potential evaluation and electrochemical characteristics of NASICON-related-3D framework compounds

et al. 1996

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Hajime Arai

Electrochemical and structural study of Li2CuO2, LiCuO2 and NaCuO2

Direct Observation of a Metastable Crystal Phase of Li_xFePO₄ under Electrochemical Phase Transition

Characterization and cathode performance of Li1 − xNi1 + xO2 prepared with the excess lithium method

Direct observation of reversible oxygen anion redox reaction in Li-rich manganese oxide, Li₂MnO₃, studied by soft X-ray absorption spectroscopy

Synthesis, redox potential evaluation and electrochemical characteristics of NASICON-related-3D framework compounds

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Hajime Arai

Electrochemical and structural study of Li2CuO2, LiCuO2 and NaCuO2

Direct Observation of a Metastable Crystal Phase of LixFePO4 under Electrochemical Phase Transition

Characterization and cathode performance of Li1 − xNi1 + xO2 prepared with the excess lithium method

Direct observation of reversible oxygen anion redox reaction in Li-rich manganese oxide, Li2MnO3, studied by soft X-ray absorption spectroscopy

Synthesis, redox potential evaluation and electrochemical characteristics of NASICON-related-3D framework compounds

Contact Info

Product

Resources

About

Direct Observation of a Metastable Crystal Phase of Li_xFePO₄ under Electrochemical Phase Transition

Direct observation of reversible oxygen anion redox reaction in Li-rich manganese oxide, Li₂MnO₃, studied by soft X-ray absorption spectroscopy