锂(药物)
橄榄石
扩散
化学计量学
放松(心理学)
过渡金属
锰
化学
化学物理
固溶体
材料科学
物理化学
热力学
矿物学
催化作用
冶金
物理
心理学
生物化学
内分泌学
社会心理学
医学
作者
Laurence Savignac,John M. Griffin,Steen B. Schougaard
标识
DOI:10.1149/1945-7111/ac4544
摘要
Substitution of iron by other transition metals within the remarkably stable olivine framework is of interest considering the expected gain in energy density. However, manganese rich olivine materials suffer from sluggish redox kinetics, leading to electrochemical performances at high current densities which are below expectations. The source of the kinetic limitations is not clear, with multiple processes having been proposed, including low bulk electronic conductivity, structural instability of Mn 3+ and a phase transition mechanism. This study employed 7 Li MAS NMR relaxation techniques to indirectly probe Li + dynamics using various stoichiometry of chemically prepared Li x Mn y Fe 1-y PO 4 (0 ≤ ( x , y ) ≤ 1). Focusing on the particle level, the aim was to understand how the different crystal phases, alongside the Mn structural contribution, influence Li + transport at each stage of the oxidation process. Significantly, the formation of an olivine solid solution with vacancies within this progression gave rise to a faster 7 Li transverse relaxation derived from superior Li + motion.
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