Formation of mono/bi-layer iron phosphate and nucleation of LiFePO4 nano-crystals from amorphous 2D sheets in charge/discharge process for cathode in high-performance Li-ion batteries

Abstract

We prepared mono/bi-layer iron phosphate two-dimensional (2D) materials with 0.74nm/1.52nm thickness by means of a simple chemically induced precipitation method and post-processing. The mechanism of growth of the atomically thin 2D-sheet crystals was investigated by experimental measurements and theoretical calculations. The crystalline 2D sheets were easily oxidized to the amorphous phase in air, and LiFePO4 nano-crystals self-nucleated from amorphous 2D sheets in the charge/discharge process. The 2D sheets show excellent performance properties as cathode materials: high initial discharge capacity of 185mAhg−1 at 0.1C, stable cycling (98% capacity retention over 400 cycles), and high rate capability (107mAhg−1 at 20C) for Li-ion storage. A model for self-nucleation of the LiFePO4 nano-crystals involving double-center diffusion is discussed.