Journal
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONS WITH MATERIALS AND ATOMS
Volume 526, Issue -, Pages 29-35Publisher
ELSEVIER
DOI: 10.1016/j.nimb.2022.06.012
Keywords
Perovskites; Solar cells; Proton irradiation
Categories
Funding
- National Innovation Center of Radiation Application [KZFC2020020201]
- National Natural Science Foundation of China [11875154]
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This study reports on the degradation of Cs0.01MA0.01FA0.98PbI3 perovskite films and solar cells due to proton irradiation. The photovoltaic properties of the solar cells are significantly degraded, with the short-circuit current showing a major decrease. Proton irradiation causes decomposition of CsMAFAPbI3 to PbI2 and leads to volume deformation of the spiro-OMeTAD layer.
This study reports on the proton irradiation-induced property degradation in Cs0.01MA0.01FA0.98PbI3 [MA = CH3NH3+, FA = CH(NH2)2+] perovskite films and solar cells (PSCs). Both 100 keV and 2 MeV protons are employed for irradiation. It is found that the threshold fluence for degradation of photovoltaic properties in PSCs is between 1 x 1013 and 1 x 1014 p/cm2 for 100 keV proton irradiation, or between 1 x 1014 and 2.2 x 1015 p/ cm2 for 2 MeV proton irradiation. The degradation leads to a significant decrease in the short-circuit current; the open-circuit voltage is reduced to a less extent probably because of an increase in the electrical resistance across the interface between the perovskite and carrier transport layers. Irradiation-induced decomposition of CsMAFAPbI3 to PbI2 is observed due to the electronic energy deposition (radiolysis). With increasing proton fluence, the top Au electrode layer is finally exfoliated from the underlying spiro-OMeTAD layer, which could be attributed to the volume deformation of the spiro-OMeTAD induced by the accumulation of the gaseous products of perovskite decomposition.
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