First-Principles Study of Stable Local Structures and Mg Insertion/Detachment Mechanism During Charge-Discharge of Spinel Mg(Co, Ni, Mn, Al) 2 O 4 as Cathode Materials of Magnesium Secondary Batteries

C Ishibashi and R Takeuchi and S Kubota and N Kitamura and Y Idemoto, JOURNAL OF PHYSICAL CHEMISTRY C, 129, 15962-15969 (2025).

DOI: 10.1021/acs.jpcc.5c03254

The stable structures of spinel MgCo0.5-zNi0.5MnAl z O4 (z = 0, 0.3) after discharge and charge are determined using first-principles calculations. In particular, at z = 0.3, the geometrical structure changes after discharging and charging are less pronounced than at z = 0, owing to the suppression of Mg/Co cation mixing. Pair distribution function analysis, based on synchrotron X-ray total scattering measurements, shows that the calculated local structure model during discharge is in good agreement with quantum beam results. Molecular dynamics calculations of the diffusion coefficient and Mg ion conductivity at z = 0 and 0.3, using a generic graph neural network force field, show that Mg diffuses more easily at z = 0 at 25 degrees C, owing to its higher conductivity.

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