Abstract
Solar cells rely on photogeneration of charge carriers in p-n junctions and their transport and subsequent recombination in the quasineutral regions. A number of basic issues concerning the physics of the operation of solar cells still remain obscure. This paper discusses some of those unsolved basic problems. In conventional solar cells, recombination of photogenerated charge carriers plays a major limiting role in the cell efficiency. High quality thin-film solar cells may overcome this limit if the minority diffusion lengths become large as compared to the cell dimensions, but, strikingly, the conventional model fails to describe the cell electric behavior under these conditions. A new formulation of the basic equations describing charge carrier transport in the cell along with a set of boundary conditions is presented. An analytical closed-form solution is obtained under a linear approximation. In the new framework given, the calculation of the open-circuit voltage of the solar cell diode does not lead to unphysical results.
Highlights
Charge carrier transport underlies the electrical behavior of any semiconductor device and, in particular, of solar cells
Solar cells rely on photogeneration of charge carriers in p-n junctions and their transport and subsequent recombination in the quasineutral regions
A number of basic issues concerning the physics of the operation of solar cells still remain obscure
Summary
Charge carrier transport underlies the electrical behavior of any semiconductor device and, in particular, of solar cells. Despite efforts made over the years to correctly model charge-carrier transport in semiconductors, some important questions still remain unanswered. These questions need to be addressed in order to correctly model present and future devices. One of these open questions is how to model carrier recombination. For closed-circuit conditions, a different set of boundary conditions needs to be derived This problem has only been addressed in the last few years [7,8,9].
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