Investigation of resonance structures in optically thin solar cells

Abstract: To reduce costs, the solar cell industry aims at producing thinner solar cells.Structuring the surfaces of optically thin devices is important for avoiding transmission-related losses and, hence, increasing their efficiency. Light trapping leads to longer optical pathlengths and increased absorption of energy. In addition, resonances in the nanostructures enhance the absorption in the energy-converting material. Further, resonances in periodic structures may couple with each other and thereby increase the abso… Show more

“…The device with the thinner active layers shows an increase in absorptance in the collection layer in conflict with the Lambert–Beer decay when illuminating from the front, indicating photonic resonance effects as a result of the active layer thickness being in the range of the incident light. [ 27 ] Note that we cannot utilize this effect, since thin layers do not yield a reasonable electric capacity.…”

Bridging the Gap between Solar Cells and Batteries: Optical Design of Bifunctional Solar Batteries Based on 2D Carbon Nitrides

“…The device with the thinner active layers shows an increase in absorptance in the collection layer in conflict with the Lambert–Beer decay when illuminating from the front, indicating photonic resonance effects as a result of the active layer thickness being in the range of the incident light. [ 27 ] Note that we cannot utilize this effect, since thin layers do not yield a reasonable electric capacity.…”

Bridging the Gap between Solar Cells and Batteries: Optical Design of Bifunctional Solar Batteries Based on 2D Carbon Nitrides