Efficient and stable perovskite-silicon tandem solar cells through contact displacement by MgF <i> <sub>x</sub> </i>

Jiang Liu(King Abdullah University of Science and Technology), Michele De Bastiani(King Abdullah University of Science and Technology), Erkan Aydın(King Abdullah University of Science and Technology), George T. Harrison(King Abdullah University of Science and Technology), Yajun Gao(King Abdullah University of Science and Technology), Rakesh R. Pradhan(King Abdullah University of Science and Technology), Mathan K. Eswaran(King Abdullah University of Science and Technology), Mukunda Mandal(Max Planck Institute for Polymer Research), Wenbo Yan(King Abdullah University of Science and Technology), Akmaral Seitkhan(King Abdullah University of Science and Technology), Maxime Babics(King Abdullah University of Science and Technology), Anand S. Subbiah(King Abdullah University of Science and Technology), Esma Ugur(King Abdullah University of Science and Technology), Fuzong Xu(King Abdullah University of Science and Technology), Lujia Xu(King Abdullah University of Science and Technology), Mingcong Wang(King Abdullah University of Science and Technology), Atteq ur Rehman(King Abdullah University of Science and Technology), Arsalan Razzaq(King Abdullah University of Science and Technology), Jingxuan Kang(King Abdullah University of Science and Technology), Randi Azmi(King Abdullah University of Science and Technology), Ahmed Ali Said(King Abdullah University of Science and Technology), Furkan H. Isikgor(King Abdullah University of Science and Technology), Thomas G. Allen(King Abdullah University of Science and Technology), Denis Andrienko(Max Planck Institute for Polymer Research), Udo Schwingenschlögl(King Abdullah University of Science and Technology), Frédéric Laquai(King Abdullah University of Science and Technology), Stefaan De Wolf(King Abdullah University of Science and Technology)
Science
June 23, 2022
10.1126/science.abn8910
Cited by 424

Abstract

The performance of perovskite solar cells with inverted polarity (p-i-n) is still limited by recombination at their electron extraction interface, which also lowers the power conversion efficiency (PCE) of p-i-n perovskite-silicon tandem solar cells. A MgF x interlayer with thickness of ~1 nanometer at the perovskite/C 60 interface favorably adjusts the surface energy of the perovskite layer through thermal evaporation, which facilitates efficient electron extraction and displaces C 60 from the perovskite surface to mitigate nonradiative recombination. These effects enable a champion open-circuit voltage of 1.92 volts, an improved fill factor of 80.7%, and an independently certified stabilized PCE of 29.3% for a monolithic perovskite-silicon tandem solar cell ~1 square centimeter in area. The tandem retained ~95% of its initial performance after damp-heat testing (85°C at 85% relative humidity) for &gt;1000 hours.

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