Boron-vertex modification of carba-closo-dodecaborate for high-performance magnesium-ion battery electrolyte

Further advances in magnesium ion batteries (MIBs) require the development of electrolyte solutions with highly optimized properties. Here we report the design, synthesis and electrolytic properties of a new family of Mg salts of carba-closo-dodecaborate anions (CCAs). Detailed calculations suggested that modification at the boron vertices, previously considered inappropriate for MIB electrolytes, would be effective. Experimental studies showed that simple halogenation at the 12-B vertex of CCA drastically improves the solubility in low viscosity solvents without compromising the chemical and redox stability, and the ionic conductivity reached 6.2 mS/cm. The synthesized electrolytes showed low overpotential (<= 200 mV) for Mg deposition and excellent reversible magnesium deposition/stripping with high Coulombic efficiency (>= 95%).

Automated summary

By modifying the Mg salts with carba-closo-dodecaborate anions, the solubility and ionic conductivity of magnesium ion batteries have been greatly improved, while maintaining chemical and redox stability. The synthesized electrolytes exhibit low overpotential for Mg deposition and high Coulombic efficiency for magnesium deposition/stripping.