Demonstration of enhanced absorption in thin film Si solar cells with textured photonic crystal back reflector - Concepedia

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Demonstration of enhanced absorption in thin film Si solar cells with textured photonic crystal back reflector

234

Citations

16

References

2008

Year

Lirong Zeng, Peter Bermel, Yuan‐Qiu‐Qiang Yi, Bernard A. Alamariu, Kurt Broderick, Jifeng Liu, C.-Y. Hong, Xili Duan, John D. Joannopoulos, Lionel C. Kimerling

Applied Physics Letters

Optical MaterialsEngineeringOrganic Solar CellPhotovoltaic DevicesOptoelectronic DevicesThin Film Process TechnologySilicon On InsulatorPhotovoltaicsBackside ReflectorOptical PropertiesSolar Cell StructuresPhotonic Integrated CircuitElectrical EngineeringThin-film FabricationPhotonic MaterialsHigh ReflectivityEnhanced AbsorptionPhotonic DevicePerovskite Solar CellApplied PhysicsBuilding-integrated PhotovoltaicsLight AbsorptionThin FilmsSolar CellsOptoelectronicsTextured Photonic CrystalSolar Cell Materials

Abstract

Herein the authors report the experimental application of a powerful light trapping scheme, the textured photonic crystal (TPC) backside reflector, to thin film Si solar cells. TPC combines a one-dimensional photonic crystal as a distributed Bragg reflector with a diffraction grating. Light absorption is strongly enhanced by high reflectivity and large angle diffraction, as designed with scattering matrix analysis. 5 μm thick monocrystalline thin film Si solar cells integrated with TPC were fabricated through an active layer transfer technique. Measured short circuit current density Jsc was increased by 19%, compared to a theoretical prediction of 28%.

References

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