Thermodynamic Stability and Crystal Structure Dependence of Li Content for Li_xMn_2-yM_yO₄ (M = Mg, Al, Cr, Mn) as a Cathode Active Material for Li Secondary Battery

Abstract

We investigated the relation between the thermodynamic stability and crystal structure dependence of Li content for the substituted spinel, Li_xMn_2-yM_yO₄ (M = Mg, Al, Cr, Mn). The enthalpy change per mole of atoms for the formation reaction, ΔH_R, were calculated from the heat of dissolution. ΔH_R increased with the decreasing Li content. ΔH_R of the all amounts of Li content for Li_xMn_2-yM_yO₄ (M = Mg, Al, Cr, Mn) decreased compared to that of Li_xMn_2-yM_yO₄. The crystal structure analysis by powder neutron diffraction was examined for Li_xMn_2-yM_yO₄ (M = Mg, Al, Cr, Mn). The Madelung energy increases with decreasing Li content for Li_xMn₂O₄, and it was associated with the thermodynamic data. From these results, the host structure is structurally and thermodynamically stable of the all amounts of Li content with the substitution of M for Li_xMn_2-yM_yO₄.