Polycrystalline diamond compact with increased leaching surface area and method of leaching a polycrystalline diamond compact

What is claimed is: 1. An unleached polycrystalline diamond compact (PDC) comprising: a substrate; and an unleached polycrystalline diamond table including an acid-labile leach-enhancing material and a sintering aid, wherein the acid-labile leach-enhancing material is more labile in an acid than the sintering aid and comprises a mixture of both of microstructures having an average largest linear dimension of less than 100 μm and nanostructures having an average largest linear dimension of less than 1000 nm. 2. The PDC of claim 1 , wherein the sintering aid comprises cobalt and the acid-labile leach-enhancing material comprises tungsten (W). 3. The PDC of claim 1 , wherein the acid-labile leach-enhancing material is configured for removal in the acid to define a plurality of cavities of less than 100 μm within the polycrystalline diamond table that increase the leaching surface area of the polycrystalline diamond table as a result of the removal of the acid-labile leach-enhancing material. 4. An unleached polycrystalline diamond compact (PDC) comprising: a substrate; and an unleached polycrystalline diamond table including an acid-labile leach-enhancing material and a sintering aid, wherein the acid-labile leach-enhancing material is more labile in an acid than the sintering aid and comprises one or both of microstructures having an average largest linear dimension of less than 100 μm and nanostructures having an average largest linear dimension of less than 1000 nm, wherein one or both of the microstructures and the nanostructures of the acid-labile leach-enhancing material are oriented in a pattern in the polycrystalline diamond table. 5. The PDC of claim 4 , wherein the sintering aid comprises cobalt and the acid-labile leach-enhancing material comprises tungsten (W). 6. The PDC of claim 4 , wherein the acid-labile leach-enhancing material is in the form of a mixture of both the microstructures and the nanostructures. 7. The PDC of claim 4 , wherein the acid-labile leach-enhancing material is configured for removal in the acid to define a plurality of cavities of less than 100 μm within the polycrystalline diamond table that increase the leaching surface area of the polycrystalline diamond table as a result of the removal of the acid-labile leach-enhancing material. 8. A polycrystalline diamond (PDC) sintering assembly comprising: a substrate; polycrystalline diamond grains; a sintering aid; one or both of microstructures having an average largest linear dimension of less than 100 μm or nanostructures having an average largest linear dimension of less than 1000 nm of an acid-labile leach-enhancing material disposed in the polycrystalline diamond grains, wherein the acid-labile leach-enhancing material is oriented in a pattern in the polycrystalline diamond grains; and a can in which the substrate, polycrystalline diamond grains, sintering aid, and acid-labile leach-enhancing material are disposed. 9. The PDC sintering assembly of claim 8 , wherein the substrate comprises the sintering aid. 10. The PDC sintering assembly of claim 8 , wherein the acid-labile leach-enhancing material is more labile in an acid than the sintering aid. 11. The PDC sintering assembly of claim 8 , wherein the acid-labile leach-enhancing material comprises tungsten (W). 12. A polycrystalline diamond (PDC) sintering assembly comprising: a substrate; polycrystalline diamond grains; a sintering aid; one or both of microstructures having an average largest linear dimension of less than 100 μm or nanostructures having an average largest linear dimension of less than 1000 nm of an acid-labile leach-enhancing material disposed in the polycrystalline diamond grains, wherein the acid-labile leach-enhancing material has a dog-bone structure; and a can in which the substrate, polycrystalline diamond grains, sintering aid, and acid-labile leach-enhancing material are disposed. 13. The PDC sintering assembly of claim 12 , wherein the substrate comprises the sintering aid. 14. The PDC sintering assembly of claim 12 , wherein the acid-labile leach-enhancing material is more labile in an acid than the sintering aid. 15. The PDC sintering assembly of claim 12 , wherein the acid-labile leach-enhancing material comprises tungsten (W). 16. A polycrystalline diamond (PDC) sintering assembly comprising: a substrate; polycrystalline diamond grains; a sintering aid; one or both of microstructures having an average largest linear dimension of less than 100 μm or nanostructures having an average largest linear dimension of less than 1000 nm of an acid-labile leach-enhancing material disposed in the polycrystalline diamond grains, wherein the acid-labile leach-enhancing material is in the form of a template or mesh or adhered to the can; and a can in which the substrate, polycrystalline diamond grains, sintering aid, and acid-labile leach-enhancing material are disposed. 17. The PDC sintering assembly of claim 16 , wherein the substrate comprises the sintering aid. 18. The PDC sintering assembly of claim 16 , wherein the acid-labile leach-enhancing material is more labile in an acid than the sintering aid. 19. The PDC sintering assembly of claim 16 , wherein the acid-labile leach-enhancing material comprises tungsten (W).