Synergistic storage of lithium ions in defective anatase/rutile TiO2 for high-rate batteries
2019
Abstract Fabrication of heterostructured materials is a strategy to boost the charge-transfer kinetics and the performance of high-rate lithium storage. Here, a facile, low-temperature method for the synthesis of high-area TiO 2 nanospheres containing both anatase and rutile phases is described. The as-prepared materials contain a high concentration of oxygen vacancies facilitating electron conduction in the anatase phase and theoretical calculations provide evidence of a low energy barrier for Li + transport in the rutile phase. The synergy between the two phases renders the shared conduction of electrons through anatase and Li + ions via rutile at high-current rates, leading to the anodes that outperform the alternate TiO 2 systems when the combination of capacity at high current densities and cycle stability are considered, displaying a capacity of 95.4 mAh g -1 at 10 A g -1 and a 97.2 % retention of capacity over 500 cycles at 1 A g -1 .
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