Litcius/Paper detail

Efficiency Enhancement of GaAs Single-Junction Solar Cell by Nanotextured Window Layer

Chae-Won Kim, Gwang-Yeol Park, Jae-Cheol Shin, Hyojin Kim

2022Applied Sciences12 citationsDOIOpen Access PDF

Abstract

In order to improve efficiency of flexible III-V semiconductor multi-junction solar cells, it is important to enhance the current density for efficiency improvement and to attain an even efficiency of solar cells on a curved surface. In this study, the nanotextured InAlP window layer of a GaAs single-junction solar cell was employed to suppress reflectance in broad range. The nanotextured surface affects the reflectance suppression with the broad spectrum of wavelength, which causes it to increase the current density and efficiency of the GaAs single-junction solar cell and alleviate the efficiency drop at the high incident angle of the light source. Those results show the potential of the effectively suppressed reflectance of multi-junction solar cells and even performance of solar cells attached on a curved surface.

Topics & Concepts

Materials scienceOptoelectronicsSolar cellEnergy conversion efficiencyCurrent densitySolar cell efficiencySemiconductorWavelengthOpticsPhysicsQuantum mechanicssolar cell performance optimizationNanowire Synthesis and ApplicationsChalcogenide Semiconductor Thin Films
Efficiency Enhancement of GaAs Single-Junction Solar Cell by Nanotextured Window Layer | Litcius