Methods of forming earth-boring tools

What is claimed is: 1. A method of forming an earth-boring tool, comprising: depositing a diamond material comprising diamond nanoparticles on a supporting substrate; forming a catalyst-containing material discrete from the diamond material on each of a top and sides of the diamond material after depositing the diamond material on the supporting substrate; processing the diamond material under high temperature and high pressure conditions to form a sintered nanoparticle-enhanced polycrystalline compact; and attaching the sintered nanoparticle-enhanced polycrystalline compact to a bit body. 2. The method of claim 1 , further comprising selecting the catalyst-containing material to comprise at least one catalyst material different than at least one other catalyst material of the supporting substrate. 3. The method of claim 2 , wherein selecting the catalyst-containing material to comprise at least one catalyst material different than at least one other catalyst material of the supporting substrate comprises: selecting the at least one catalyst material to comprise one or more of cobalt, iron, and nickel; and selecting the at least one other catalyst material of the supporting substrate to comprise one or more of cobalt, iron, and nickel. 4. The method of claim 1 , wherein attaching the sintered nanoparticle-enhanced polycrystalline compact to a bit body comprises securing the supporting substrate within a pocket in an outer surface of the bit body. 5. A method of forming an earth-boring tool, comprising: depositing a diamond material on a supporting substrate, the diamond material comprising diamond nanoparticles; depositing a catalyst-containing material on exposed surfaces of the diamond material and on a portion of exposed side surfaces of the supporting substrate; providing another catalyst-containing material on the catalyst-containing material and on remaining portions of the exposed side surfaces of the supporting substrate; subjecting the diamond material, the catalyst-containing material, the another catalyst-containing material, and the supporting substrate to high temperature and high pressure conditions to form a cutting element comprising a sintered nanoparticle-enhanced polycrystalline compact; and attaching the cutting element to a bit body. 6. A method of forming an earth-boring tool, comprising: depositing a diamond material on a supporting substrate, the diamond material comprising diamond nanoparticles; depositing a catalyst-containing material on exposed surfaces of the diamond material and on a portion of exposed side surfaces of the supporting substrate; providing a non-catalyst-containing material on remaining portions of the exposed side surfaces of the supporting substrate; subjecting the diamond material, the catalyst-containing material, the non-catalyst-containing material, and the supporting substrate to high temperature and high pressure conditions to form a cutting element comprising a sintered nanoparticle-enhanced polycrystalline compact; and attaching the cutting element to a bit body. 7. The method of claim 6 , further comprising selecting the non-catalyst-containing material to comprise one or more of a ceramic, a carbide, an oxide, an intermetallic, a clay, a mineral, a glass, carbon nanotubes, fullerene, adamantane, graphene, and amorphous carbon.