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Efficient and stable perovskite solar cells based on blade-coated CH3NH3PbI3 thin films fabricated using “green” solvents under ambient conditions

Metal halide perovskites are considered the most promising candidates for solar cells of the decade due to their exceptional optical and electronic properties. The power conversion efficiency of metal halide perovskites, when incorporated as the active layer of solar cells, has become comparable to...

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Bibliographic Details
Published in:Organic electronics 2023-05, Vol.116 (C), p.106763, Article 106763
Main Authors: Baral, Pramod, Zhang, Xinwen, Garden, Kelsey, Chakraborty, Nilave, Shen, Lening, Cao, Zikun, Gong, Xiong, Whittaker-Brooks, Luisa, Wang, He
Format: Article
Language:English
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Summary:Metal halide perovskites are considered the most promising candidates for solar cells of the decade due to their exceptional optical and electronic properties. The power conversion efficiency of metal halide perovskites, when incorporated as the active layer of solar cells, has become comparable to that observed for conventional silicon solar cells. However, the stability, scaleup, green solvent usage, and fabrication in ambient conditions of metal halide perovskites need to be solved for commercial applications. Here, we report the fabrication of blade-coated methylammonium lead iodide (MAPbI3) perovskite thin films using methylamine and acetonitrile as “green” solvents under ambient conditions. Our perovskite films are initially prepared from low purity PbI2 (99%) and are blade-coated in dry air at relative humidity (RH) levels above 30%. A significant advantage of fabricating our perovskite thin films via blade-coating protocols is that there is a minimal amount of precursors (5 μL) used compared to spin-coating methods (50μL–60μL) for a 4 cm2 substrate. With the addition of a small amount of an organic halide salt, namely, phenethylammonium chloride, the film crystallinity is improved and non-radiative recombination is suppressed, resulting in power conversion efficiencies over 20%. In addition, the device maintains more than 95% of its initial efficiency after 500 h under continuous light illumination of 1-sun at open circuit conditions, 50 °C and 60% RH. The above method leads a path towards the commercial fabrication of perovskite solar cells. [Display omitted] •Low purity lead iodide is used to grow high quality perovskite films from blade coating method.•Volatile green solvents are used to prepare precursor to make dense, uniform, compact, and dark perovskite films.•Stable devices with efficiency over 20% are fabricated in ambient environment by adding phenethylammonium chloride.
ISSN:1566-1199
1878-5530
DOI:10.1016/j.orgel.2023.106763