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13 March 2015 Micro-optical designs for angular confinement in solar cells
Jeffrey M. Gordon, Daniel Feuermann, Heylal Mashaal
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Journal of Photonics for Energy, Vol. 5, Issue 1, 055599 (March 2015). https://doi.org/10.1117/1.JPE.5.055599
Abstract
We identify and evaluate a variety of efficient and feasible micro-optics for confining the radiative emission of solar cells. The key criteria used for assessing viable designs are (1) high optical efficiency for both the transmission of impinging solar beam radiation and the external recycling of isotropic cell luminescent emission; (2) liberal optical tolerance; (3) compactness; and (4) being amenable to fabrication from existing materials and manufacturing processes. Both imaging and nonimaging candidate designs are presented, and their superiority to previous proposals is quantified. The strategy of angular confinement for boosting cell open-circuit voltage—thereby enhancing conversion efficiency—is limited to cells where radiative recombination is the dominant carrier recombination pathway. Optical systems that restrict the angular range for emission of cell luminescence must, by reciprocity, commensurately restrict the angular range for the collection of solar radiation. This, in turn, mandates the introduction of concentrators, but not for the objective of delivering concentrated flux onto the cell. Rather, the optical system must project an acceptably uniform spatial distribution of solar flux onto the cell surface at a nominal averaged irradiance of 1 sun.
© 2015 Society of Photo-Optical Instrumentation Engineers (SPIE) 1947-7988/2015/$25.00 © 2015 SPIE
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Jeffrey M. Gordon, Daniel Feuermann, and Heylal Mashaal "Micro-optical designs for angular confinement in solar cells," Journal of Photonics for Energy 5(1), 055599 (13 March 2015). https://doi.org/10.1117/1.JPE.5.055599
Published: 13 March 2015
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Cited by 5 scholarly publications.
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KEYWORDS
Solar cells
Solar concentrators
Tolerancing
Compound parabolic concentrators
Optics manufacturing
Luminescence
Dielectrics
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