The phase transition near room temperature in LiMnO was studied using thermal expansion measurements, and directly compared with the electrochemical performance of the material. Studies based on thermal expansion indicate the onset of a first-order phase transition at T ∼ 220 K for the nearly half-doped material, with [Mn]/[Mn] ≈ 1. The T shifts to a higher temperature, ∼290 K, and signatures for Verwey-type charge ordering at 290 K can be observed when the fraction of Jahn-Teller Mn in LiMnO is increased, i.e., [Mn]/[Mn] > 1. These studies show that the first-order phase transition near room temperature in LiMnO is associated with charge ordering, which ultimately is a consequence of the Jahn-Teller effect. In addition, the Jahn-Teller effect is proven to be an important cause of magnetoresistance and electrochemical capacity fading in LiMnO. Electrochemical measurements show that both materials, either with a T ∼ 220 K or T ∼ 290 K, exhibit capacity fading to almost the same extent. Electrochemical capacity retention is observed only in nanosized LiMnO, for which the phase transition anomalies are completely absent.
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