期刊
JOURNAL OF POWER SOURCES
卷 515, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jpowsour.2021.230632
关键词
Nanorutile TiO2; Rock-salt LiTiO2; Cubic LiTiO2; Lithium battery; Lithium anode; Negative electrode
The research on nanorutile TiO2 high performance anode material demonstrates its ability to reversibly store lithium through solid solution and most of its capacity comes from capacitive processes.
The so-called nanorutile TiO2 high performance anode material is somewhat misleading. Below 1.2 V, rutile undergoes an irreversible phase transformation into disordered rock salt-type c-LiTiO2. During repeated charge-discharge cycling in the 3.0-1.0 V range, the cubic structure of LiTiO2 is retained. It is capable of reversibly storing lithium through a solid solution with a noteworthy little volume change as demonstrated by ex situ XRD in samples taken at selected cycles. Interestingly, its good power rate behaviour is not due to fast diffusion of lithium as, in fact, it is strongly inhibited (DLi+ approximate to 10(-15) cm(2) s(-1)). Most of its capacity arises from capacitive processes. At 0.3 mV s(-1) and higher sweep rates it accounts for more than 50% of total specific capacity, and the capacitive contribution is ca. 90% at 1.5 mV s(-1). This work should boost new research on direct synthesis of cubic rock salt-type LiTiO2.
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