34.151 % (33.93 %) - Maximal Efficiencies investigated in New n+(p+) - p(n) CdTe1-xSx, CdTe1-xSex - Crystalline Alloy Junction Solar Cells at 300 K, According to Highest Hot Reservoir Temperatures - Archive ouverte HAL
Article Dans Une Revue European Journal of Applied Science, Engineering and Technology Année : 2024

34.151 % (33.93 %) - Maximal Efficiencies investigated in New n+(p+) - p(n) CdTe1-xSx, CdTe1-xSex - Crystalline Alloy Junction Solar Cells at 300 K, According to Highest Hot Reservoir Temperatures

Résumé

In two new single n+(p+)−p(n) X(x)-alloy junction solar cells at 300 K, [X(x)≡CdTe1−xSx, CdTe1−xSex],0≤x≤1, by basing on the same physical model-and-treatment method, as used in our recent works [1, 2], and also other works [3-11], some important results, obtained in the present work, are reported in the following.As noted in Tables 2.1, 3.1, 4.1 and 5.1, the dark carrier-minority saturation current density

Dates et versions

hal-04534408 , version 1 (05-04-2024)

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Citer

Van-Cong Huynh. 34.151 % (33.93 %) - Maximal Efficiencies investigated in New n+(p+) - p(n) CdTe1-xSx, CdTe1-xSex - Crystalline Alloy Junction Solar Cells at 300 K, According to Highest Hot Reservoir Temperatures. European Journal of Applied Science, Engineering and Technology, 2024, 2 (2), pp.125-149. ⟨10.59324/ejaset.2024.2(2).10⟩. ⟨hal-04534408⟩

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