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Dielectric roughness on the front surface enhances significantly solar cell efficiency by light trapping in the absorbing layer. However in plasmonic assisted thin silicon solar cells we show, by a detailed analysis of the various mechanisms, that front-surface plasmonic structures enhance the efficiency by a different mechanism—namely the effective broadband forward scattering into the silicon, while...
Ordered arrays of Au nanodisks, extending into the active layer of organic photovoltaic device exhibit enhanced external quantum efficiency, stemming from resonances of plasmon and nanopatch antennas. Design rules were verified experimentally.
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