Efficiency of quantum dot solar cell enhanced by improving quantum dots performance

Abstract: We propose an innovative description to provide a quantitative basis to enhance the conversion efficiency of InAs/GaAs quantum dot solar cells (QDSC). A theoretical approach and numerical simulation are used to improve the performance of the quantum dots and analyze the relevance to enhance the conversion efficiency. The absorption coefficient of QDs is determined in terms of dot material, dot size, size dispersion, and shape, which are used to obtain a better match between the absorption spectrum of QDs with … Show more

“…The size and number of layers of the QD are the two primary determinants that contribute to the additive photocurrent. Therefore, the photogeneration rate inside the QDs can be defined as [32] -…”

Effect of capping rate on the performance of InAs/GaAs quantum dot solar cell

“…The size and number of layers of the QD are the two primary determinants that contribute to the additive photocurrent. Therefore, the photogeneration rate inside the QDs can be defined as [32] -…”

Effect of capping rate on the performance of InAs/GaAs quantum dot solar cell

Preparation of Ga3+:ZnO quantum dots and the photoelectric properties of sensitized polycrystalline silicon solar cells

An analytical study of the minority carrier distribution and photocurrent of a p–i–n quantum dot solar cell based on the InAs/GaAs system