Pyramidal surface textures for light trapping and antireflection in perovskite-on-silicon tandem solar cells
Date
2014-10-20
Authors
Schneider, Bennett W
Lal, Niraj
Baker-Finch, Simeon
White, Thomas
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Publisher
Optical Society of America
Abstract
Perovskite-on-silicon tandem solar cells show potential to reach > 30% conversion efficiency, but require careful optical control. We introduce here an effective light-management scheme based on the established pyramidal texturing of crystalline silicon cells. Calculations show that conformal deposition of a thin film perovskite solar cell directly onto the textured front surface of a high efficiency silicon cell can yield front surface reflection losses as low as 0.52mA/cm(2). Combining this with a wavelength-selective intermediate reflector between the cells additionally provides effective light-trapping in the high-bandgap top cell, resulting in calculated absolute efficiency gains of 2 - 4%. This approach provides a practical and effective method to adapt existing high efficiency silicon cell designs for use in tandem cells, with conversion efficiencies approaching 35%.
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Source
Optics Express
Type
Journal article
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Open Access