Implications of TCO Topography on Intermediate Reflector Design for a-Si/μc-Si Tandem Solar Cells—Experiments and Rigorous Optical Simulations - Concepedia

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Implications of TCO Topography on Intermediate Reflector Design for a-Si/μc-Si Tandem Solar Cells—Experiments and Rigorous Optical Simulations

17

Citations

25

References

2013

Year

Simon Kirner, Martin Hammerschmidt, Christoph Schwanke, Daniel Lockau, Sonya Calnan, Tim Frijnts, Sebastian Neubert, A. Schöpke, Frank Schmidt, J.-H. Zollondz,

IEEE Journal of Photovoltaics

Optical MaterialsEngineeringIrl ThicknessOptoelectronic DevicesIntegrated CircuitsThin Film Process TechnologyPhotovoltaic SystemSilicon On InsulatorPhotovoltaicsSemiconductorsOptical PropertiesIntermediate Reflector DesignThin Film ProcessingMaterials ScienceElectrical EngineeringOxide ElectronicsTco TopographySmall Autocorrelation LengthSemiconductor Device FabricationRigorous Optical SimulationsSurface ScienceApplied PhysicsBuilding-integrated PhotovoltaicsThin FilmsOptoelectronicsSolar Cell Materials

Abstract

The influence of the transparent conducting oxide (TCO) topography was studied on the performance of a silicon oxide intermediate reflector layer (IRL) in a-Si/μc-Si tandem cells, both experimentally and by 3-D optical simulations. Therefore, cells with varying IRL thickness were deposited on three different types of TCOs. Clear differences were observed regarding the performance of the IRL as well as its ideal thickness, both experimentally and in the simulations. Optical modeling suggests that a small autocorrelation length is essential for a good performance. Design rules for both the TCO topography and the IRL thickness can be derived from this interplay.

References

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