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W2022205853 endingPage "024007" @default.
W2022205853 startingPage "024007" @default.
W2022205853 abstract "Sub-wavelength photonic structures and nanoscale materials have the potential to greatly improve the efficiencies of solar cells by enabling maximum absorption of sunlight. Semiconductor heterostructures provide versatile opportunities for improving absorption of infrared radiation in photovoltaic devices, which accounts for half of the power in the solar spectrum. These ideas can be combined in quantum-well solar cells and related structures in which sub-wavelength metal and dielectric scattering elements are integrated for light trapping. Measurements and simulations of GaAs solar cells with less than one micron of active material demonstrate the benefits of incorporating In(Ga)As quantum-wells and quantum-dots to improve their performance. Simulations that incorporate a realistic model of absorption in quantum-wells show that the use of broadband photonic structures with such devices can substantially improve the benefit of incorporating heterostructures, enabling meaningful improvements in their performance." @default.
W2022205853 created "2016-06-24" @default.
W2022205853 creator A5020117870 @default.
W2022205853 creator A5049286972 @default.
W2022205853 creator A5067401854 @default.
W2022205853 creator A5076661676 @default.
W2022205853 date "2012-01-12" @default.
W2022205853 modified "2023-09-23" @default.
W2022205853 title "Semiconductor heterostructures and optimization of light-trapping structures for efficient thin-film solar cells" @default.
W2022205853 cites W1497033841 @default.
W2022205853 cites W1597997176 @default.
W2022205853 cites W1964328042 @default.
W2022205853 cites W1965024955 @default.
W2022205853 cites W1968005402 @default.
W2022205853 cites W1968579543 @default.
W2022205853 cites W1968970040 @default.
W2022205853 cites W1970947445 @default.
W2022205853 cites W1971460825 @default.
W2022205853 cites W1971796943 @default.
W2022205853 cites W1973825526 @default.
W2022205853 cites W1974539913 @default.
W2022205853 cites W1980984534 @default.
W2022205853 cites W1984025352 @default.
W2022205853 cites W1987346293 @default.
W2022205853 cites W1988234921 @default.
W2022205853 cites W1990156696 @default.
W2022205853 cites W1991876866 @default.
W2022205853 cites W1992172325 @default.
W2022205853 cites W1996863384 @default.
W2022205853 cites W1999248164 @default.
W2022205853 cites W2000528747 @default.
W2022205853 cites W2001572173 @default.
W2022205853 cites W2001639939 @default.
W2022205853 cites W2001997365 @default.
W2022205853 cites W2002570624 @default.
W2022205853 cites W2008120928 @default.
W2022205853 cites W2012666326 @default.
W2022205853 cites W2023638037 @default.
W2022205853 cites W2028509466 @default.
W2022205853 cites W2029637177 @default.
W2022205853 cites W2032212204 @default.
W2022205853 cites W2034465820 @default.
W2022205853 cites W2041745917 @default.
W2022205853 cites W2042716091 @default.
W2022205853 cites W2045636936 @default.
W2022205853 cites W2046140303 @default.
W2022205853 cites W2049480052 @default.
W2022205853 cites W2050941755 @default.
W2022205853 cites W2053116534 @default.
W2022205853 cites W2053483931 @default.
W2022205853 cites W2057108535 @default.
W2022205853 cites W2058131458 @default.
W2022205853 cites W2061158555 @default.
W2022205853 cites W2062074587 @default.
W2022205853 cites W2062602026 @default.
W2022205853 cites W2068947521 @default.
W2022205853 cites W2073777485 @default.
W2022205853 cites W2079508143 @default.
W2022205853 cites W2079884085 @default.
W2022205853 cites W2082928397 @default.
W2022205853 cites W2085811348 @default.
W2022205853 cites W2087434957 @default.
W2022205853 cites W2087735186 @default.
W2022205853 cites W2089633630 @default.
W2022205853 cites W2091414337 @default.
W2022205853 cites W2098164670 @default.
W2022205853 cites W2098651565 @default.
W2022205853 cites W2101531663 @default.
W2022205853 cites W2105818387 @default.
W2022205853 cites W2108592852 @default.
W2022205853 cites W2110950629 @default.
W2022205853 cites W2111028630 @default.
W2022205853 cites W2117234300 @default.
W2022205853 cites W2132872911 @default.
W2022205853 cites W2135942920 @default.
W2022205853 cites W2137073862 @default.
W2022205853 cites W2154265807 @default.
W2022205853 cites W2154323928 @default.
W2022205853 cites W2158123867 @default.
W2022205853 cites W2160922598 @default.
W2022205853 cites W2163698759 @default.
W2022205853 cites W2167419742 @default.
W2022205853 cites W2169564227 @default.
W2022205853 cites W4247419735 @default.
W2022205853 doi "https://doi.org/10.1088/2040-8978/14/2/024007" @default.
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