A novel electrolyte thin film has been prepared by radio-frequency magnetron sputtering using a Li-B-P-O target in a pure N-2 atmosphere at various temperatures. The results indicate that the thin film deposited at room temperature is amorphous and its surface is smooth, dense, and uniform with the average thickness <1 mu m, whereas that deposited at 400 degrees C shows the mixture of crystal and amorphous structure, which is more beneficial to the improvement on lithium ion motility in the network. The thin films exhibit an ionic conductivity of 3.5 x 10(-6) S cm(-1) and a electrochemical stability window of 7.8 V as well as outstanding chemical durability. Structural analyses suggest that their excellent chemical and electrochemical performances can be attributed to the combination of "mixed former" and "nitrogen incorporation" effects. The former produces nonbridging oxygen groups that provide vacant sites for lithium ions to move in. or out of as well as expand the lithium ion conduction pathway. The latter leads to a more complicated cross-linked structure containing -N< and -N= bonds instead of -O- and -O=, which brings about more lithium ion transport channels in the network.

• 出版日期2013-9-26
• 单位北京理工大学