Abstract: An electrochemical device is provided having a functionalized carboranyl magnesium electrolyte. Specifically the disclosure relates to an electrochemical device having a magnesium anode, a cathode, a current collector made of non-noble metal, and a functionalized carboranyl magnesium electrolyte. The functionalized carboranyl electrolyte includes a carboranyl anion functionalized with at least one halide, or one alkyl, aryl, alkoxy, aryloxy groups, or their partially or completely fluorinated analogues. In contact with the electrolyte, the non-noble metal cathodic current collector has unusually high oxidative stability >3.0V vs. a magnesium reference. Processes for making the electrochemical device are additionally provided.

Abstract: Electrochemical devices and processes for forming them employ a functionalized carboranyl magnesium electrolyte. The functionalized carboranyl electrolyte includes a carboranyl anion functionalized with at least one halide, or one alkyl, aryl, alkoxy, and/or aryloxy groups, or their partially or completely fluorinated analogues. In contact with the electrolyte, a non-noble metal cathodic current collector has unusually high oxidative stability >3.0V vs. a magnesium reference.

Abstract: A method for production of a magnesium battery with low impedance is provided. A cell is constructed comprising an uncoated current collector anode, an electrolyte system comprising a non-aqueous solvent and a magnesium salt soluble in the non-aqueous solvent, and a cathode. The cell is charged to electrodeposit magnesium metal unto the uncoated current collector to obtain an anode having magnesium metal as the active material. Also provided are rechargeable magnesium batteries obtained by the method.

Abstract: An electrochemical device is provided having a carboranyl magnesium electrolyte. Specifically the disclosure relates to an electrochemical device having a magnesium anode, a cathode, and a current collector made of non-noble metal, and a carboranyl magnesium electrolyte. In contact with the electrolyte, the non-noble metal cathode current collector has unusually high oxidative stability>3.0V vs. a magnesium reference. Processes for making the electrochemical device are additionally provided.

Abstract: An electrochemical device is provided having a carboranyl magnesium electrolyte. Specifically the disclosure relates to an electrochemical device having a magnesium anode, a cathode, and a current collector made of non-noble metal, and a carboranyl magnesium electrolyte. In contact with the electrolyte, the non-noble metal cathode current collector has unusually high oxidative stability >3.0V vs. a magnesium reference. Processes for making the electrochemical device are additionally provided.