Benzylamine-Treated Wide-Bandgap Perovskite with High Thermal-Photostability and Photovoltaic Performance
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AbstractMixed iodide-bromide organolead perovskites with a bandgap of 1.70-1.80 eV have great potential to boost the efficiency of current silicon solar cells by forming a perovskite-silicon tandem structure. Yet, the stability of the perovskites under various application conditions, and in particular combined light and heat stress, is not well studied. Here, FA(0.15)Cs(0.85)Pb(I0.73Br0.27)(3), with an optical bandgap of approximate to 1.72 eV, is used as a model system to investigate the thermal-photostability of wide-bandgap mixed halide perovskites. It is found that the concerted effect of heat and light can induce both phase segregation and decomposition in a pristine perovskite film. On the other hand, through a postdeposition film treatment with benzylamine (BA) molecules, the highly defective regions (e.g., film surface and grain boundaries) of the film can be well passivated, thus preventing the progression of decomposition or phase segregation in the film. Besides the stability improvement, the BA-modified perovskite solar cells also exhibit excellent photovoltaic performance, with the champion device reaching a power conversion efficiency of 18.1%, a stabilized power output efficiency of 17.1% and an open-circuit voltage (V-oc) of 1.24 V.
All Author(s) ListZhou Y, Wang F, Cao Y, Wang JP, Fang HH, Loi MA, Zhao N, Wong CP
Journal nameAdvanced Energy Materials
Year2017
Month11
Day22
Volume Number7
Issue Number22
PublisherWILEY
Article number1701048
ISSN1614-6832
eISSN1614-6840
LanguagesEnglish-United Kingdom
Keywordspassivation, photostability, solar cells, thermal stability, wide-bandgap perovskites
Web of Science Subject CategoriesChemistry, Physical;Energy & Fuels;Materials Science, Multidisciplinary;Physics, Applied;Physics, Condensed Matter;Chemistry;Energy & Fuels;Materials Science;Physics

Last updated on 2020-19-10 at 03:53