Preparation of high energy-density electrode materials for rechargeable magnesium batteries

The invention claimed is: 1. An anode active material for a magnesium ion battery comprising: a mixture of the formula: Mg a M 1-a (0<a<1)+Carbon wherein the mixture is ball milled and has a carbon content of from 0.1-50 weight percent of the total mixture wherein carbon buffers a volume expansion of the anode active material during a charge and discharge cycle and M is selected from the group of bismuth (Bi), tin (Sn), antimony (Sb) and combinations thereof wherein magnesium ions are inserted and extracted from the anode and wherein the carbon prevents agglomeration of the metal and magnesium and migration of the metal out of the active material. 2. The anode active material of claim 1 wherein the mixture includes an intermetallic compound or alloy from a solid solution reaction of the metal (M) and magnesium. 3. The anode active material of claim 1 wherein Carbon is selected from carbon black, and graphite or other carbon based materials. 4. A magnesium ion battery comprising: a first electrode comprising an active material; a second electrode; an electrolyte disposed between the first electrode and the second electrode, the electrolyte including a magnesium compound, and said electrolyte in electrochemical contact with said first electrode and said second electrode; said active material including a mixture of the formula: Mg a M 1-a (0<a<1)+Carbon wherein the mixture is ball milled and has a carbon content of from 0.1-50 weight percent of the total mixture wherein carbon buffers a volume expansion of the anode active material during a charge and discharge cycle and M is selected from of group of bismuth (Bi), tin (Sn), antimony (Sb) and combinations thereof wherein magnesium ions are inserted and extracted from the anode and wherein the carbon prevents agglomeration of the metal and magnesium and migration of the metal out of the active material. 5. The magnesium ion battery of claim 4 wherein the mixture includes an intermetallic compound or alloy from a solid solution reaction of the metal (M) and magnesium. 6. The magnesium ion battery of claim 4 wherein Carbon is selected from carbon black, and graphite or other carbon based materials. 7. The magnesium ion battery of claim 4 wherein the first electrode includes bismuth. 8. The magnesium ion battery of claim 4 wherein the active material comprises Mg 3 Bi 2 .