The
use of TiNb2O7 (TNO) as an anode material
for Li-ion battery is attracting tremendous attention because of its
stable structure and high theoretical capacity. However, the inherent
poor electronic conductivity and ionic conductivity restrict its practical
application. Herein, we designed and prepared zirconium-doped TiNb2O7 nanospheres (Zr
x
-TNO NSs, x = 0, 0.05, 0.010) with pores through
a simple hydrolysis method to adjust the lattice spacing and electron
distribution. The nanosphere-structured electron materials with pores
can not only prevent aggregation of active materials but also provide
more channels for Li+ and electrons’ transportation.
Meanwhile, X-ray diffraction coupled with high-resolution transmission
electron microscopy results verified the crystal spacing increasement.
The X-ray photoelectron spectrum exhibited partial reduction of metal
atoms. As a result, Zr0.05-TNO NSs showed improved cycling
stability in the half cell (i.e., delivers a reversible capacity of
170 mA h/g at 5 C after 1000 cycles). It also showed excellent performance
in the rate capabilities of 260.0 and 177.8 mA h/g at 0.5 and 10 C,
making it highly competitive for quick-charging lithium-ion batteries.
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