In-situ construction of Li4Ti5O12/rutile TiO2 heterostructured nanorods for robust and high-power lithium storage

Li4Ti5O12 is considered as a safe and stable anode material for high-power lithium-ion batteries due to its zero-strain characteristic during the charge/discharge. However, the intrinsically low electronic conductivity leads to a deterioration in high-rate performance, impeding its intensive application. Herein, the Li4Ti5O12/rutile TiO2 (LTO/RT) heterostructured nanorods with tunable oxide phases have been in-situ fabricated by annealing the electrospun nanofiber precursor. By constructing such a heterostructured interface, the as-prepared sample delivers a high capacity of 160.3 mAh.g(-1) at 1 C after 200 cycles, 125.5 mAh.g(-1) at 10 C after 500 cycles and a superior capacity retention of 90.3% after 1,000 cycles at 30 C, outperforming the heterostructure-free counterparts of pure LTO, RT and the commercial LTO product. Density Functional Theory calculation suggests a possible synergistic effect of the LTO/RT interface that would improve the electronic conductivity and Li-ion diffusion.

Automated summary

The study shows that the Li4Ti5O12/rutile TiO2 heterostructured nanorods exhibit improved high-rate performance and capacity retention, thanks to the constructed interface between the two materials.