Numerical modeling represent a powerful approach to investigate the physical loss mechanisms that limit the conversion efficiency of solar cells. In this paper, a comprehensive analysis of the different loss mechanisms affecting the performance of a conventional c-Si solar cell, such as optical losses, recombination losses and parasitic resistive losses, has been performed by means of numerical device simulations. Moreover, a detailed quantification of the impact of the different recombination mechanisms within the cell has been carried out through dark current-voltage simulations, both for a conventional c-Si solar cell and a high-efficiency selective emitter c-Si solar cell.
Loss analysis of silicon solar cells by means of numerical device simulation
MAGNONE, PAOLO;
2013
Abstract
Numerical modeling represent a powerful approach to investigate the physical loss mechanisms that limit the conversion efficiency of solar cells. In this paper, a comprehensive analysis of the different loss mechanisms affecting the performance of a conventional c-Si solar cell, such as optical losses, recombination losses and parasitic resistive losses, has been performed by means of numerical device simulations. Moreover, a detailed quantification of the impact of the different recombination mechanisms within the cell has been carried out through dark current-voltage simulations, both for a conventional c-Si solar cell and a high-efficiency selective emitter c-Si solar cell.Pubblicazioni consigliate
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