Optical discs as low-cost, quasi-random nanoimprinting templates for photon management

What is claimed is: 1 . A photonic device comprising a photoactive layer and at least one additional layer, wherein a surface of the photoactive layer or a surface of the at least one additional layer has imprinted thereon a quasi-random pattern of nanostructures corresponding to a quasi-random pattern of nanostructures defined in a recording layer of a pre-written optical media disc. 2 . The photonic device of claim 1 , wherein the quasi-random pattern of nanostructures defined in the recording layer of the pre-written optical media disc and the imprinted surface comprises a plurality of pits and lands arranged in a plurality of tracks, the tracks aligned along their longitudinal axes, and is configured according to an optical data storage format, the optical data storage format characterized by one, two, or all three of: a pit width of about 130 nm, a minimum pit length of about 150 nm, and a track pitch of about 320 nm. 3 . The photonic device of claim 2 , wherein the optical data storage format is characterized by the pit width of about 130 nm, the minimum pit length of about 150 nm, and the track pitch of about 320 nm. 4 . The photonic device of claim 1 , wherein the quasi-random pattern of nanostructures defined in the recording layer of the pre-written optical media disc and the imprinted surface is a stacked quasi-random pattern of nanostructures comprising a first quasi-random pattern of nanostructures comprising a plurality of pits and lands arranged in a plurality of tracks, the tracks aligned along their longitudinal axes, which is configured according to a first optical data storage format, and at least one additional overlying quasi-random pattern of nanostructures comprising a plurality of pits and lands arranged in a plurality of tracks, the tracks aligned along their longitudinal axes, which is configured according to a second optical data storage format. 5 . The photonic device of claim 4 , wherein an angle θ defined by the longitudinal axes of the tracks of the at least one additional overlying quasi-random pattern of nanostructures relative to the longitudinal axes of the tracks of the first quasi-random pattern of nanostructures is in the range of 0°<θ<360°. 6 . The photonic device of claim 5 , wherein the first quasi-random pattern of nanostructures and the at least one additional overlying quasi-random pattern of nanostructures are configured according to the same optical data storage format. 7 . The photonic device of claim 6 , wherein the same optical data storage format is an optical data storage format characterized by one, two, or all three of: a pit width of about 130 nm, a minimum pit length of about 150 nm, and a track pitch of about 320 nm. 8 . The photonic device of claim 7 , wherein the same optical data storage format is characterized by the pit width of about 130 nm, the minimum pit length of about 150 nm, and the track pitch of about 320 nm. 9 . The photonic device of claim 1 , wherein the photonic device is a photovoltaic cell comprising a front electrode layer, a back electrode layer, and the photoactive layer between the front and back electrode layers. 10 . The photonic device of claim 9 , wherein the imprinted surface is the surface of the photoactive layer. 11 . The photonic device of claim 9 , further comprising an electron transport layer between the front and back electrode layers. 12 . The photonic device of claim 1 , wherein the quasi-random pattern of nanostructures defined in the recording layer of the pre-written optical media disc and the imprinted surface comprises a plurality of pits and lands arranged in a plurality of tracks, the tracks aligned along their longitudinal axes, and is configured to provide a Fourier response characterized by a distribution of k-values which couples sunlight having wavelengths in the range of from about 315 nm to about 2.5 μm to surface plasmons at an interface between the imprinted surface and an overlying layer of the photonic device. 13 . The photonic device of claim 12 , wherein the distribution of k-values couples sunlight having wavelengths in the range of from about 315 nm to about 775 nm.