Bismuth composite nanoparticle anodes, methods of making same, and uses thereof

The invention claimed is: 1. A composite anode comprising: a plurality of nanostructures, each nanostructure comprising: a plurality of bismuth nanoparticles; and a lithium phosphate; and a layer of carbon conducting material comprising graphene, reduced graphene oxide, or amorphous carbon, wherein the bismuth nanoparticles are disposed in the lithium phosphate, and wherein the layer of carbon conducting material forms at least a portion of an exterior surface of the nanostructure and is disposed on at least a portion of an exterior surface of the lithium phosphate; and a carbon bulk conducting material. 2. The composite anode of claim 1 , wherein the bismuth nanoparticles comprise 1 weight % to 64 weight % of the composite anode. 3. The composite anode of claim 1 , wherein the bismuth nanoparticles have a size of 1 to 100 nanometers. 4. The composite anode of claim 1 , wherein the bismuth nanoparticles are homogenously distributed in the lithium phosphate. 5. The composite anode of claim 1 , wherein at least a portion of the plurality of bismuth nanoparticles are in electrical contact through carbon. 6. The composite anode of claim 1 , wherein the layer of carbon conducting material is graphene and the layer has 1 to 100 graphene layers. 7. The composite anode of claim 1 , wherein the carbon bulk conducting material is a plurality of carbon nanotubes, a graphene-containing material, or a combination thereof. 8. The composite anode of claim 1 , wherein the composite anode exhibits a reversible delithiation capacity of 100-305 mAh/g at a rate of 50 mA/g. 9. The composite anode of claim 1 , wherein the composite anode is cycled 100-500 cycles with a capacity decay rate of 0.19%-0.071%. 10. The composite anode of claim 1 , wherein the plurality of bismuth nanoparticles is formed in situ. 11. The composite anode of claim 10 , wherein the plurality of bismuth nanoparticles are electrochemically formed in situ from bismuth phosphate. 12. The composite anode of claim 11 , wherein the bismuth phosphate is at least partially encapsulated by a carbon conducting material comprising graphene, reduced graphene oxide, or amorphous carbon. 13. A battery comprising: a composite anode of claim 1 ; a cathode; an electrolyte; and optionally, a separator. 14. The battery of claim 13 , wherein the battery is a lithium-ion-conducting battery, a sodium-ion-conducing battery, or a potassium-ion conducting battery. 15. The battery of claim 13 , wherein the battery is a rechargeable battery. 16. The battery of claim 13 , wherein the battery further comprises a cathode-side current collector and/or an anode side current collector. 17. The battery of claim 13 , wherein the composite anode, the cathode, the electrolyte, and, optionally, the cathode-side current collector and/or an anode side current collector, form a cell, and the battery comprises a plurality of the cells and each adjacent pair of cells is separated by a bipolar plate.