1 research outputs found
GaNb<sub>11</sub>O<sub>29</sub> Nanowebs as High-Performance Anode Materials for Lithium-Ion Batteries
M–Nb–O
compounds have been considered as promising
anode materials for lithium-ion batteries (LIBs) because of their
high capacities, safety, and cyclic stability. However, very limited
M–Nb–O anode materials have been developed thus far.
Herein, GaNb<sub>11</sub>O<sub>29</sub> with a shear ReO<sub>3</sub> crystal structure and a high theoretical capacity of 379 mAh g<sup>–1</sup> is intensively explored as a new member in the M–Nb–O
family. GaNb<sub>11</sub>O<sub>29</sub> nanowebs (GaNb<sub>11</sub>O<sub>29</sub>-N) are synthesized based on a facile single-spinneret
electrospinning technique for the first time and are constructed by
interconnected GaNb<sub>11</sub>O<sub>29</sub> nanowires with an average
diameter of ∼250 nm and a large specific surface area of 10.26
m<sup>2</sup> g<sup>–1</sup>. This intriguing architecture
affords good structural stability, restricted self-aggregation, a
large electrochemical reaction area, and fast electron/Li<sup>+</sup>-ion transport, leading to a significant pseudocapacitive behavior
and outstanding electrochemical properties of GaNb<sub>11</sub>O<sub>29</sub>–N. At 0.1 C, it shows a high specific capacity (264
mAh g<sup>–1</sup>) with a safe working potential (1.69 V vs
Li/Li<sup>+</sup>) and the highest first-cycle Coulombic efficiency
in all of the known M–Nb–O anode materials (96.5%).
At 10 C, it exhibits a superior rate capability (a high capacity of
175 mAh g<sup>–1</sup>) and a durable cyclic stability (a high
capacity retention of 87.4% after 1000 cycles). These impressive results
indicate that GaNb<sub>11</sub>O<sub>29</sub>-N is a high-performance
anode material for LIBs