Materials Science and Chemistry

Biography

Biography: Tsan Yao Chen

Abstract

Cathode materials of P₂-Na_2/3[Fe_1/3Mn_2/3] O₂ (NFMO) phase nanoparticle with a maximum capacity of ~148 mAh in a sodium ion battery was synthesized by a solid-state annealing method. By cross-referencing results of focused-ion beam (FIB) section scanning electron microscopy, ex-situ X-ray absorption spectroscopy (XAS), X-ray photoemission (XPS) depth profiling, and in-operando neutron diffraction, we found that Na ion intercalation and extraction distort the local structure in NFMO crystal, resulting in irreversibility of the sodium ion battery (SIB). This reaction pathway is controlled by the transformation kinetics of the Fe sites from octahedral (Oh) to tetragonal (Td) in the charge and discharge processes. For a SIB operated at 2.0 to 3.8V, steady kinetics between the Na intercalation and chemical state evolution on the Fe sites enable the homogeneous restructuring in both local and global regimes in NFMO crystal. For a SIB operated at 2.0 to 4.5V, substantially higher kinetics in the Fe chemical state evolution induces a dramatic lattice expansion. This expansion cracks the interface between the P₂ and Na intercalated regions, thereby causing substantial irreversibility of NFMO in a SIB.