Journal
SCIENTIFIC REPORTS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41598-022-24829-8
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- University of Shahid Bahonar Kerman, University of Jiroft
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In this study, green SnO2@ZnO nanocomposites were synthesized using Calotropis plant extract as an electron transfer material. The quality of perovskite films was improved by adding a small amount of polyaniline (PANI) polymer. The prepared perovskite solar cells (PSCs) with SnO2@ZnO.PANI nanocomposites showed higher power conversion efficiency and good stability. The optimal PSCs fabricated with mp-TiO2/SnO2@ZnO.PANI nanocomposites as electron transfer layer achieved a power conversion efficiency of 15.45%.
Herein, at first, green SnO2@ZnO nanocomposites were synthesized using Calotropis plant extract as an electron transfer material (ETM) to fabricate low-temperature-processed perovskite solar cells (PSCs). Then, the polyaniline (PANI) polymer was applied as an efficient additive to improve perovskite film quality. Under the effects of the small content of PANI additive, the quality of perovskite films is enhanced, which showed higher crystallinity in (110) crystal plane; also, the perovskite grains were found to be enlarged from 342 to 588 nm. The power conversion efficiency (PCE) of the prepared PSCs with SnO2@ZnO.PANI nanocomposites electron transfer layer (ETL) increased by 3.12%, compared with the PCE of SnO2@ZnO nanocomposites. The perovskite devices using SnO2@ZnO.PANI nanocomposites ETL have shown good stability during 480 h of tests. Furthermore, the optimal PSCs were fabricated by the mp-TiO2/SnO2@ZnO.PANI nanocomposites as ETL, which has a power conversion efficiency of 15.45%. We expect that these results will boost the development of low-temperature ETL, which is essential for the commercializing of high-performance, stable, and flexible perovskite solar cells.
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