Functionalized aspherical powder feedstocks and methods of making the same

What is claimed is: 1. A metal-containing functionalized material comprising: (a) a plurality of aspherical particles comprising a wrought aluminum alloy, wherein said aspherical particles are produced by a process comprising mechanically milling and/or chemically milling a bulk feedstock containing a bulk wrought metal alloy, wherein said mechanically milling and/or chemically milling causes no solid-liquid phase change during conversion of said bulk wrought aluminum alloy into said aspherical particles; and (b) a plurality of particulates that are physically and/or chemically assembled on surfaces of said aspherical particles, wherein said particulates are selected from the group consisting of metals, metal alloys, metal carbides, metal nitrides, metal borides, metal hydrides, metal oxides, metal sulfides, ceramics, and combinations thereof, wherein said particulates are compositionally different than said aspherical particles, wherein said particulates have an average particulate size that is different than an average aspherical-particle size of said aspherical particles, and wherein said aspherical particles are characterized by a packing efficiency selected from 49% to 56%. 2. The metal-containing functionalized material of claim 1 , wherein said aspherical particles are selected from whiskers, needles, fractured chips, deformed ribbons, rods, fibers, oblate spheroids, prolate spheroids, parallelepipeds, rhomboids, rectangular prisms, platelets, faceted particles, and/or combinations thereof. 3. The metal-containing functionalized material of claim 1 , wherein said aspherical particles are characterized by a median particle size (D50) from 10 microns to 10 millimeters. 4. The metal-containing functionalized material of claim 1 , wherein said average particulate size is smaller than said average aspherical-particle size. 5. The metal-containing functionalized material of claim 4 , wherein said average particulate size is at least an order of magnitude smaller than said average aspherical-particle size. 6. The metal-containing functionalized material of claim 1 , wherein said average particulate size is from 5 nanometers to 100 microns. 7. The metal-containing functionalized material of claim 1 , wherein said particulates form a continuous coating on said aspherical particles. 8. The metal-containing functionalized material of claim 1 , wherein said particulates form a discontinuous coating on said aspherical particles. 9. The metal-containing functionalized material of claim 1 , wherein said aspherical particles contain a metal selected from the group consisting of titanium, cobalt, chromium, iron, copper, tungsten, magnesium, niobium, nickel, tantalum, silicon, vanadium, gold, silver, platinum, palladium, iridium, rhenium, zinc, cerium, molybdenum, zirconium, hafnium, and alloys or combinations thereof. 10. The metal-containing functionalized material of claim 1 , wherein said particulates contain a metal selected from the group consisting of aluminum, titanium, cobalt, zinc, tin, chromium, bismuth, neodymium, dysprosium, erbium, samarium, praseodymium, gadolinium, ytterbium, lanthanum, boron, lithium, calcium, strontium, scandium, yttrium, manganese, rhenium, iridium, lead, carbon, indium, gallium, iron, copper, tungsten, magnesium, niobium, nickel, tantalum, silicon, vanadium, gold, silver, palladium, platinum, cerium, zirconium, hafnium; carbides, nitrides, borides, hydrides, intermetallics, oxides, or sulfides thereof; and combinations of the foregoing. 11. The metal-containing functionalized material of claim 1 , wherein the combined concentration of said aspherical particles and said particulates is from 50 vol % to 100 vol % of said metal-containing functionalized material.