Abstract
Layered/spinel heterostructured Li-rich material is prepared by controlling the conditions of a solvothermal method to obtain precursor and the subsequent high-temperature solid phase reaction, and then, 3 wt % LiF, 3 wt % Li2TiO3, and 3 wt % Li3PO4 are coated on the surface of the layered/spinel heterostructured Li-rich oxide by a wet chemical method. The influences of different lithium salt coating layers on the layered/spinel heterostructured material are investigated by transmission electron microscopy, galvanostatic charge/discharge tests, and electrochemical impedance spectroscopy. It can be seen that after coating a Li salt layer, the initial charge–discharge efficiency, cycle, and rate performance are obviously improved. Especially, the sample coated with Li3PO4 shows an optimum result in improving the rate capability of layered/spinel heterostructured Li-rich material and effectively inhibiting the side reaction between the layered/spinel heterostructured Li-rich material and organic electrolyte ...
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