Characterization of fully-evaporated perovskite solar cells and photodetectors under high-intensity pulsed proton irradiation
Parkhomenko H.P. Mostovyi A.I. Kaikanov M. Strey J. Turcu M.C. Diederich M. Wolter S.J. Steckenreiter V. Vollbrecht J. Brus V.V.
December 2024Nature Research
Scientific Reports
2024#14Issue 1
This study investigates the impact of proton irradiation on perovskite devices fabricated fully through vacuum deposition. Exposure to irradiation induces changes in both electrical and optical properties. The analysis reveals that the main factors influencing the observed performance changes in solar cells are a significant reduction in shunt resistance and a minor increase in series resistance, with minimal alterations in recombination dynamics. Remarkably, the devices maintain promising photodetector characteristics both before and after proton irradiation, particularly in a self-powered mode without a reverse bias. These findings provide valuable insights into the resilience of vacuum-deposited perovskite devices against ionizing radiation, highlighting their potential for applications in radiation-prone environments, such as the nuclear industry or space exploration.
Perovskite photodetector , Perovskite solar cells , Proton irradiation , Radiation hardness , Recombination dynamics
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Department of Physics, School of Sciences and Humanities, Nazarbayev University, Astana, 010000, Kazakhstan
Department of Photovoltaics, Institute for Solar Energy Research Hamelin, Emmerthal, 31860, Germany
Department of Physics
Department of Photovoltaics
10 лет помогаем публиковать статьи Международный издатель
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