Method of making photovoltaic cell

We claim: 1. A method for generating a photovoltaic cell, comprising: depositing an intermediate substrate layer on a first semiconductor layer, the first semiconductor layer comprising an n-type semiconductor material; etching a plurality of nano-windows into the intermediate substrate layer to form a nan-patterned intermediate substrate layer, the plurality of nano-windows extending through an entirety of the intermediate substrate layer thereby exposing the first semiconductor material by way of the plurality of nano-windows; and forming a second semiconductor layer over the nano-patterned intermediate substrate layer, wherein the second semiconductor layer comprises a p-type semiconductor material, wherein depositing the second semiconductor layer over the nano-patterned intermediate substrate layer comprises accumulating the second semiconductor material in the plurality of nano-windows to form a respective plurality of heterojunctions, wherein the p-type semiconductor layer has a pseudomorphic crystal structure. 2. The method of claim 1 , further comprising: prior to depositing the intermediate substrate layer on the first semiconductor layer, depositing the first semiconductor layer on a base substrate layer. 3. The method of claim 1 , wherein the p-type semiconductor material is Cadmium Tellurium, and wherein the n-type semiconductor material is Cadmium Sulfide. 4. The method of claim 1 , wherein the p-type semiconductor material is of the formula Zn x Cd 1-x Te. 5. The method of claim 1 , wherein each nano-window in the plurality of nano-windows has a length of less than 350 nm and a width of less than 350 nm. 6. The method of claim 1 , wherein the photovoltaic cell has a graded band gap. 7. The method of claim 1 , further comprising: subsequent to forming the second semiconductor layer over the nano-patterned intermediate substrate layer, depositing a third semiconductor layer on the second semiconductor layer, the third semiconductor layer composed of a third semiconductor material, wherein the second semiconductor material has a first band gap, wherein the third semiconductor material has a second band gap, and wherein the first band gap and the second band gap are unequal. 8. A method for generating a photovoltaic cell, comprising: depositing an intermediate substrate layer on a first semiconductor layer, the first semiconductor layer comprising an n-type semiconductor material; etching a plurality of nano-windows into the intermediate substrate layer to form a nano-patterned intermediate substrate layer, the plurality of nano-windows extending through an entirety of the intermediate substrate layer thereby exposing the first semiconductor material by way of the plurality of nano-windows; and depositing a second semiconductor layer over the nano-patterned intermediate substrate layer, wherein depositing the second semiconductor layer over the nano-patterned intermediate substrate layer comprises accumulating the second semiconductor material in the plurality of nano-windows to form a respective plurality of heterojunctions, wherein the second semiconductor layer has a pseudomorphic crystal structure.