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Konishi, Hiroaki*; Hirano, Tatsumi*; Takamatsu, Daiko*; Gunji, Akira*; Feng, X.*; Furutsuki, Sho*; Okumura, Takafumi*; Terada, Shohei*; Tamura, Kazuhisa
Journal of Solid State Chemistry, 262, p.294 - 300, 2018/06
Times Cited Count:9 Percentile:49.17(Chemistry, Inorganic & Nuclear)The potential in each state of charge (SOC) during charging of LiNiMnCoO is higher than that during discharging. To clarify the effect of chargedischarge operating conditions on the electrochemical reaction, LiNiMnCoO was charged and discharged under various charge-discharge operating ranges, and OCP, crystal structure, and oxidation states of the ransition metals were evaluated by electrochemical measurement, XRD, and XAFS. These results indicate that OCP, lattice parameters, and oxidation states of the transition metals of LiNiMnCoO in each SOC are not constant. The XRD results indicate that two phases, namely, LiNiMnCoO-like and LiMnO-like, exist in LiNiMnCoO.
Konishi, Hiroaki*; Hirano, Tatsumi*; Takamatsu, Daiko*; Gunji, Akira*; Feng, X.*; Furutsuki, Sho*; Okumura, Takafumi*; Terada, Shohei*; Tamura, Kazuhisa
Journal of Solid State Chemistry, 258, p.225 - 231, 2018/02
Times Cited Count:8 Percentile:44.83(Chemistry, Inorganic & Nuclear)LiNiMnCoO is known as one of the cathode electrode material for Li ion batteries and its structure during charge and discharge process was investigated using electrochemical method and X-ray diffraction. It was found that in the charge process the structure changes in the order of LiMnO, LiNiMnCoO, and LiMnO. On the other hand, in the discharge process, the structure changes in the order of LiMnO and LiNiMnCoO.