Nano-structure coated sheets/films for optical electronic displays and photovoltaic modules

What is claimed is: 1. A coated substrate comprising: a) a dry optically clear moth-eye nano-structured film, having a dry thickness of less than 1 micron; wherein said dry optically clear moth-eye nano-structured film comprises distinct, crosslinked nano-structured polymer particles comprising a functional acrylic-modified polyvinylidene fluoride copolymer containing at least 50 mole percent of vinylidene fluoride monomer units, wherein said distinct, crosslinked nano-structured polymer particles are cross-linked with a cross-linker selected from the group consisting of triaziridine, polyaziridine, glycidoxy propyl trimethoxy silane, glycidoxy propyl triethoxy silane, epoxy silane, beta-(3,4-epoxycylohexyl) ethyl triethoxy silane and their blends, and having an average particle size of less than 300 nm, and b) a flat optically clear acrylic polymer substrate, wherein said dry optically clear moth-eye nano-structured film is directly adhered to the flat optically clear acrylic polymer substrate, wherein said distinct, crosslinked nano-structured particles are in the form of a packed hexagonal or pseudo-hexagonal structure fully covering the flat optically clear acrylic polymer substrate, wherein said distinct crosslinked nano-structured polymer particles do not coalesce over time or at elevated temperatures, and wherein light transmittance at a wavelength of 550 nm is greater than 93 percent, and is improved by at least 1 percent compared to the flat optically clear acrylic polymer substrate that is uncoated. 2. The coated substrate of claim 1 , wherein said distinct crosslinked, nano-structured polymer particles have an average particle size of less than 250 nm. 3. The coated substrate of claim 2 , wherein said distinct crosslinked, nano-structured polymer particles have an average particle size of from 80-200 nm. 4. The coated substrate of claim 1 , wherein said distinct crosslinked, nano-structured polymer particles have a particle size distribution such that 90 weight percent of the particles fall within +/−30 percent of the weight average particle size. 5. The coated substrate of claim 1 , wherein said distinct crosslinked, nano-structured polymer particles have a particle size distribution such that 90 weight percent of the particles fall within +/−20 percent of the weight average particle size. 6. The coated substrate of claim 5 , wherein the light transmittance at a wavelength of 550 nm is greater than 94 percent. 7. The coated substrate of claim 1 , wherein said acrylic polymer substrate comprises at least 50 weight percent of methylmethacrylate monomer units. 8. The coated substrate of claim 1 , wherein said dry optically clear polymeric moth-eye nanostructured film has a haze level of 2 percent or less. 9. The coated substrate of claim 8 , wherein said dry optically clear polymeric moth-eye nanostructured film has a haze level of 1 percent or less. 10. The coated substrate of claim 1 , wherein the light transmittance at a wavelength or 550 nm is improved by at least 1.5 percent compared to the flat optically clear acrylic polymer substrate that is uncoated. 11. The coated substrate of claim 1 , wherein said dry optically clear polymeric moth-eye nanostructured film is applied as an aqueous emulsion or dispersion. 12. The coated substrate of claim 1 , wherein said cross-linker is present at from 0.5 to 1.05 weight percent based on the total weight of polymer solids in the the dry optically clear moth-eye nano-structure film.