MNS
 2021
DOI: 10.2174/1876402912999200821133828
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Determination of Enriched Quantum Efficiency with InGaN/GaN Multiple Quantum Well Solar Cells

Shingmila Hungyo
1
,
Khomdram Jolson Singh
2
,
Dickson Warepam
3
et al.

Abstract: Background: Energy is a major concern in every aspect of our life. Solar energy is a renewable environment friendly source of energy. Therefore, solar cells are vastly studied with different technology and with different material. Objective: The main objective here is to analyze InGaN material for solar cell applications with less complicated structures of MQW solar cells on revising solar cell with the recombination structure, I-V characteristics and its efficiency. Methods: The device is simulated using … Show more

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“…5) The absorption coefficient of InGaN materials is related to the number of photogenerated carriers. Since the different structures of the InGaN active region may affect the absorption of Sunlight, 26 the absorption coefficient of InGaN is assumed to be constant. In the Silvaco software, the absorption coefficient is modeled:…”
mentioning
confidence: 99%

Enhancement of Short-Circuit Current Density in Superlattice-Based InGaN/GaN Solar Cells

Shan,
Song,
Li
et al. 2023
ECS J. Solid State Sci. Technol.
2
0
0
0
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“…5) The absorption coefficient of InGaN materials is related to the number of photogenerated carriers. Since the different structures of the InGaN active region may affect the absorption of Sunlight, 26 the absorption coefficient of InGaN is assumed to be constant. In the Silvaco software, the absorption coefficient is modeled:…”
mentioning
confidence: 99%

Enhancement of Short-Circuit Current Density in Superlattice-Based InGaN/GaN Solar Cells

Shan,
Song,
Li
et al. 2023
ECS J. Solid State Sci. Technol.
2
0
0
0
View full textAdd to dashboardCite
show abstract
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