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Abstract
Selenium is experiencing renewed interest as a promising candidate for the wide bandgap photoabsorber in tandem solar cells. However, despite the potential of selenium-based tandems to surpass the theoretical efficiency limit of single junction devices, such a device has never been demonstrated. In this study, we present the first monolithically integrated selenium/silicon tandemsolar cell. Guided by device simulations, we investigate variouscarrier-selective contact materials and achieve encouraging results, including an open-circuit voltage of Voc = 1.68 V from suns-Voc measurements. The high open-circuit voltage positions selenium/silicon tandem solar cells as serious contenders to the industrially dominant single junction technologies. Furthermore, we quantify a pseudo fill factor of more than 80% using injection-level-dependent open-circuit voltage measurements, indicating that a significant fraction of the photovoltaic losses can be attributed to parasitic series resistance. This work provides valuable insights into the key challenges that need to be addressed for realizing higher efficiency selenium/silicon tandem solar cells.
Original language | English |
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Article number | 013013 |
Journal | PRX ENERGY |
Volume | 3 |
Number of pages | 9 |
ISSN | 2768-5608 |
DOIs | |
Publication status | Published - 2024 |
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Monolithic Selenium/Silicon Tandem Solar Cells
Nielsen, R. (Speaker), Crovetto, A. (Other), Assar, A. (Other), Hansen, O. (Other), Chorkendorff, I. (Other) & Vesborg, P. C. K. (Other)
26 Apr 2024Activity: Talks and presentations › Conference presentations