Baloch, Ahmer A.B.
Rashkeev, Sergey N.
Alharbi, Fahhad H.
Online Publication Date2020-01-30
Print Publication Date2020-05
Permanent link to this recordhttp://hdl.handle.net/10754/661492
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AbstractPlasmonically-enhanced and Schottky-based devices are very appealing candidates for sunlight energy–harvesting applications. However, this class of structures introduces inherent limitations such as thermionic emission (and the related dark current). This article theoretically proposes using the metal–semiconductor–metal heterojunction under bifacial mode. In this design, plasmonic periodic gratings are introduced in the bifacial configuration to allow collection of light from both faces of the solar junction. This results in improved carrier generation and enhanced device performance of a cell with a 3 μm thick Si absorber. Bifacial gain for short circuit current is found to be 88%, with a bifaciality factor (the ratio of rear to front response of the device) of 84%. By optimizing the filling fractions of the front and rear plasmonic gratings, the obtained normalized output becomes higher than 25%; i.e., it almost doubles the performance in comparison with the monofacial Schottky solar cell.
CitationFarhat, M., Baloch, A. A. B., Rashkeev, S. N., Tabet, N., Kais, S., & Alharbi, F. H. (2020). Bifacial Schottky-Junction Plasmonic-Based Solar Cell. Energy Technology, 1901280. doi:10.1002/ente.201901280
SponsorsA.A.B.B. and S.N.R. would like to thank the Qatar National Research Fund (QNRF) for supporting this project through the National Priorities Research Program (NPRP) Exceptional grant, NPRP X-107-1-027. Also, F.H.A. would like to thank the King Abdullah City for Atomic and Renewable Energy (K.A.CARE) for providing funding support.