Electrodes, lithium-ion batteries, and methods of making and using same

What is claimed is: 1. A battery electrode composite particle comprising: an electrically-interconnected matrix having a three-dimensional, randomly-ordered structure forming internal pores within the matrix; a plurality of nanoparticles of a non-carbon Group 4A element or mixture thereof disposed within the internal pores of the matrix; and a coating disposed on at least a portion of an outer surface of the composite particle, wherein the internal pores define a pore volume within the composite particle that is different from a volume occupied by the plurality of nanoparticles of the non-carbon Group 4A element or mixture thereof, and wherein the coating is arranged to inhibit access of electrolyte into the pore volume defined by the internal pores. 2. The composite particle of claim 1 , wherein the plurality of nanoparticles are discrete and non-porous. 3. The composite particle of claim 2 , wherein the discrete and non-porous nanoparticles comprise silicon. 4. The composite particle of claim 1 , wherein the matrix comprises an electrically-conductive material. 5. The composite particle of claim 4 , wherein the electrically-conductive material comprises amorphous or graphitic carbon. 6. The composite particle of claim 1 , wherein the matrix comprises interconnected dendritic particles. 7. The composite particle of claim 6 , wherein the matrix further comprises a carbonized polymer that bonds the dendritic particles together in the three-dimensional, randomly-ordered structure to form the matrix. 8. The composite particle of claim 1 , where the matrix comprises: a plurality of dendritic particles; and an electrically-conductive additive material joining the plurality of dendritic particles together, wherein the plurality of dendritic particles and the electrically-conductive additive material both comprise carbon. 9. The composite particle of claim 1 , wherein the coating fully encases the outer surface of the composite particle. 10. The composite particle of claim 1 , wherein the coating encases the plurality of nanoparticles within the outer surface of the composite particle. 11. The composite particle of claim 1 , wherein the coating is an electrically conductive coating that comprises carbon. 12. The composite particle of claim 11 , wherein at least some of the carbon of the coating comprises a carbonized polymeric binder. 13. The composite particle of claim 11 , wherein at least some of the carbon of the coating comprises a chemical vapor deposition (CVD) carbon. 14. The composite particle of claim 1 , wherein the composite particle has a size in the range of about 100 nanometers to about 40 micrometers. 15. The composite particle of claim 1 , wherein the composite particle has a specific surface area that is less than or equal to about 24 m 2 /g. 16. The composite particle of claim 1 , wherein the pore volume of the composite particle is less than about 20 times the volume occupied by the plurality of nanoparticles of the non-carbon Group 4A element or mixture thereof. 17. The composite particle of claim 1 , wherein the composite particle is formed as a spherical or substantially-spherical granule. 18. The composite particle of claim 1 , wherein the matrix forms a bulk unitary body. 19. A battery electrode composition, comprising: a plurality of agglomerations of composite particles, wherein the plurality of agglomerated composite particles includes the composite particle of claim 1 . 20. The battery electrode composition of claim 19 , wherein at least a portion of each composite particle in the plurality of agglomerated composite particles is in electrical communication with at least a portion of an adjacent composite particle in the plurality of agglomerated composite particles. 21. The composite particle of claim 1 , wherein the pore volume of the composite particle is greater than the volume occupied by the plurality of nanoparticles of the non-carbon Group 4A element or mixture thereof. 22. A battery cell, comprising: an anode electrode; a cathode electrode; and an electrolyte ionically coupling the anode electrode and the cathode electrode, wherein the anode electrode or the cathode electrode includes a battery electrode composite particle, the composite particle comprising: an electrically-interconnected matrix having a three-dimensional, randomly-ordered structure forming internal pores within the matrix; and a plurality of nanoparticles of a non-carbon Group 4A element or mixture thereof disposed within the internal pores of the matrix, wherein the internal pores define an electrolyte-free pore volume within the composite particle that is different from a volume occupied by the plurality of nanoparticles of the non-carbon Group 4A element or mixture thereof. 23. The battery cell of claim 22 , wherein the composite particle further comprises: a coating disposed on at least a portion of an outer surface of the composite particle, wherein the coating is configured to inhibit access of the electrolyte into the electrolyte-free pore volume defined by the internal pores.