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W2005657825 abstract "Thinner Si solar cells with higher efficiency can make a Si photovoltaic system a cost-effective energy solution, and nanostructuring has been suggested as a promising method to make thin Si an effective absorber. However, thin Si solar cells with nanostructures are not efficient because of severe Auger recombination and increased surface area, normally yielding <50% EQE with short-wavelength light. Here we demonstrate >80% EQEs at wavelengths from 400 to 800 nm in a sub-10-μm-thick Si solar cell, resulting in 13.7% power conversion efficiency. This significant improvement was achieved with an all-back-contact design preventing Auger recombination and with a nanocone structure having less surface area than any other nanostructures for solar cells. The device design principles presented here balance the photonic and electronic effects together and are an important step to realizing highly efficient, thin Si and other types of thin solar cells. Nanostructured solar cells should be designed to balance the photonic and electronic effects together to be highly efficient. Cui et al.demonstrate a solar cell with the all-back-contact design and nanocone structure that uses just 10-μm-thick silicon while achieving efficiencies up to 13.7%." @default.
W2005657825 created "2016-06-24" @default.
W2005657825 creator A5047485057 @default.
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W2005657825 date "2013-12-16" @default.
W2005657825 modified "2023-10-01" @default.
W2005657825 title "All-back-contact ultra-thin silicon nanocone solar cells with 13.7% power conversion efficiency" @default.
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W2005657825 doi "https://doi.org/10.1038/ncomms3950" @default.
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