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W3002686019 endingPage "104936" @default.
W3002686019 startingPage "104936" @default.
W3002686019 abstract "Thermalization loss is one of the major losses in the single junction solar cells. Here, 3C–SiC as a wide bandgap semiconductor is used to manage this loss. To prevent the transmission of low energy photons, the intermediate bands inside the forbidden band gap is used. To do this, silicon quantum dots inside silicon carbide is suggested. At first, the detailed balance calculations are carried out to determine the efficiency limits of a cell with one and two mini-bands. Optical simulation using 3D FEM solution of the Schrodinger equation is done to obtain mini-bands, wave functions, and hence the optical absorption coefficient. Dimension parameters of a QD array like radius, inter-dot spacing, and array size are optimized to obtain a maximum efficiency. Inter-band and inter-sub-band absorption coefficient are calculated. That applied to determine the optimum characteristic of a QD–based intermediate band solar cell. The photocurrent increases as the inter-dot spaces decrease. Suitable radiuses and inter-dot spaces are found to obtain a high absorption coefficient and hence higher photocurrent. Finally, the effect of non-radiative recombination on the device performances is simulated. These results provide significant information to design a three-dimensional QDs based intermediate band solar cells." @default.
W3002686019 created "2020-01-30" @default.
W3002686019 creator A5078075987 @default.
W3002686019 creator A5084736621 @default.
W3002686019 creator A5088238506 @default.
W3002686019 date "2020-04-01" @default.
W3002686019 modified "2023-09-24" @default.
W3002686019 title "Management of losses (thermalization-transmission) in the Si-QDs inside 3C–SiC to design an ultra-high-efficiency solar cell" @default.
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W3002686019 doi "https://doi.org/10.1016/j.mssp.2020.104936" @default.
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