The chemical compatibility between carbon free olivine-LiNiPO4 thin films used as cathode material and LiPF6/DMC/FEC/0.2%- TMB liquid electrolyte was studied by soft-photoelectron spectroscopy, Ni L- and O K- XANES combined with electrochemical experiments. The stability of the electrolyte-electrode interface at a high charging potential strongly depends on the temperature of LiNiPO4 preparation. For the films grown at 740°C, the chemical composition of the interface is not changed even at a charging potential of 5.2 V, whereas the electrolyte-electrode interface of LiNiPO 4 grown at lower temperatures (675°C) decomposes at 5.1 V, involving the cathode material in the chemical reaction. © The Author(s) 2018.
Olivine-LiNiPO 4 thin films: Chemical compatibility with liquid electrolyte and interface stability at high potential
Nappini S;Magnano E;
2018
Abstract
The chemical compatibility between carbon free olivine-LiNiPO4 thin films used as cathode material and LiPF6/DMC/FEC/0.2%- TMB liquid electrolyte was studied by soft-photoelectron spectroscopy, Ni L- and O K- XANES combined with electrochemical experiments. The stability of the electrolyte-electrode interface at a high charging potential strongly depends on the temperature of LiNiPO4 preparation. For the films grown at 740°C, the chemical composition of the interface is not changed even at a charging potential of 5.2 V, whereas the electrolyte-electrode interface of LiNiPO 4 grown at lower temperatures (675°C) decomposes at 5.1 V, involving the cathode material in the chemical reaction. © The Author(s) 2018.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
