Investigation of Ramsdellite Titanates as Possible New Negative Electrode Materials for Li Batteries

Abstract

Transition metal oxides with ramsdellite and spinel structures have been the subject of considerable investigation as candidate electrode materials for lithium‐ion batteries. Good ionic conductivity has been reported for the ramsdellite , and the spinel has been shown to exhibit good electrochemical properties as a Li‐anode material. We have recently demonstrated that ramsdellite series displays a complete range of solubility at high temperatures between compositions and and that these phases can be preserved to room temperature by quenching. In this study we report on the electrochemical properties of members of this series of ramsdellite phases and the ramsdellite form of . Comparison is made with the electrochemical properties of the spinel phase . In cyclic voltammetry, spinel showed a major, reversible peak at about 1.55 V vs. Li. The ramsdellite phases showed a similar reversible peak at just less than −1.5 V; however, a number of additional reversible peaks were observed at up to 2.0 V. As the x value in increased, these extra peaks moved to smaller potentials, and they were observed to merge with the 1.5 V peak for . The presence of these extra peaks is thought to reflect the availability of additional sites in the ramsdellites. On charging and discharging, the potential was in the range from 1.5 to 2.5 V, although the behavior was not as flat as for the spinel. High capacities were observed, typically approaching 200 mAh/g. Initial cycling efficiencies were generally on the order of 80–90%, although no attempt has yet been made to optimize morphology. On cycling ramsdellite, capacity generally faded from an initial value of to a stable capacity of by cycle ten. © 1999 The Electrochemical Society. All rights reserved.