期刊
SOLID STATE IONICS
卷 320, 期 -, 页码 7-15出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.ssi.2018.02.027
关键词
TiNb2O7; High-capacity; Hydrothermal synthesis; Anode material; Lithium-ion battery
Lithium storage in hydrothermally synthesized TiNb2O7 (H-TNO) nanoparticles has been investigated by electrochemical and structural analysis and compared with that in solid-state synthesized TiNb2O7 (S-TNO) particles. The H-TNO was characterized to be highly crystallized primary particles having a single-crystal-like structure with a uniform face orientation. Cyclic voltammogram and charge-discharge potential characteristics of the HTNO showed that additional lithium storage occurred for x > 4.0 in Li(x)iNb(2)O(7) between 0.9 and 0.75 vs. Li/ Li+ The H-TNO used as the anodes for lithium-ion batteries had highly reversible capacities of 341 mAh g(-1) and 1480 mAh cm(-3), performance superior to that in the case of S-TNO. Ex-situ X-ray absorption fine structure (XAFS) analysis exhibited simultaneous changes in the charge compensation in Ti and Nb with an increase of Li+ ion amounts in H-TNO for x > 4.0. Apparent chemical diffusion coefficient (D-app) values of lithium in the HTNO for x > 3.5 were one order of magnitude larger than those in the S-TNO from the results of galvanostatic intermittent titration technique (GITT) analysis. The additional lithium storage in H-TNO was attributed to the enhancement of lithium diffusivity in the highly crystallized primary particles with the short lithium diffusion length. The H-TNO exhibited high capacity, high-rate charge capability, and long-cycle-life performance.
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