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Improving thin-film crystalline silicon solar cell efficiencies with photonic crystals
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Abstract
Most photovoltaic (solar) cells are made from crystalline silicon (c-Si), which has
an indirect band gap. This gives rise to weak absorption of one-third of usable solar
photons. Therefore, improved light trapping schemes are needed, particularly for c-Si
thin film solar cells. Here, a photonic crystal-based light-trapping approach is analyzed
and compared to previous approaches. For a solar cell made of a 2 mum thin film of
c-Si and a 6 bilayer distributed Bragg reflector (DBR) in the back, power generation
can be enhanced by a relative amount of 24.0% by adding a 1D grating, 26.3% by replacing
the DBR with a six-period triangular photonic crystal made of air holes in silicon,
31.3% by a DBR plus 2D grating, and 26.5% by replacing it with an eight-period inverse
opal photonic crystal.