Tertiary Mg/MgCl₂/AlCl₃ Inorganic Mg²⁺ Electrolytes with Unprecedented Electrochemical Performance for Reversible Mg Deposition

Because of the high reactivity and sensitivity of Mg²⁺ electrolytes in organic solvents, developing facile methods of preparing high-performance Mg²⁺ electrolytes is still challenging and thus impedes the development of Mg batteries. In this study, a convenient method involving tertiary reactants, Mg powder, MgCl₂, and AlCl₃, was reported to prepare all-inorganic Mg²⁺ electrolytes (termed <b>MMAC</b> electrolytes) in ethereal solvents. These <b>MMAC</b> electrolytes exhibited unprecedented performance for reversible Mg deposition, Coulombic efficiencies at 90–100%, overpotential of 125–215 mV, and anodic stability up to 3.5–3.8 V (vs Mg). A comprehensive fundamental study of the <b>MMAC</b> electrolytes showed that the electron transfer and mass transport kinetics during Mg deposition and stripping were affected by solvent, working electrode, and the composition of the electrolytes. In brief, these tertiary <b>MMAC</b> electrolytes represent the most facile and reliable inorganic Mg electrolytes known to date