Journal
SUSTAINABLE ENERGY & FUELS
Volume 2, Issue 11, Pages 2468-2479Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8se00282g
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Funding
- French Government [ANR-IEED-002-01]
- French Agence Nationale de la Recherche [ANR-17-MPGA-0012]
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The outstanding advancement of perovskite solar cells (PSCs) in recent years makes them one of the currently most interesting topics in photovoltaic (PV) technology. However, some instability issues must be solved for future application. Encapsulation techniques have been an important solution to avoid or, at least, to limit those concerns for other PV technologies and are a promising way to circumvent extrinsic instability in the case of PSCs as well. Here, we introduce a low temperature (60 degrees C) encapsulation process based on a single thin coating of Al2O3 prepared by atomic layer deposition (ALD-Al2O3). Our procedure is compatible with the individual PSC components, and hence a mean of 93.6% of the original peak power conversion efficiency (PCE) was retained after encapsulation, with the champion device exhibiting a PCE of 17.4%. Moreover, the long term stability of the encapsulated devices was remarkably lengthened by preserving the fill factor and reducing the hysteresis usually observed in non-encapsulated samples. The improvements due to the ALD-Al2O3 encapsulation process were achieved for a standard PSC configuration: methylammonium lead triiodide (MAPbI(3)), additivated-Spiro-OMeTAD and porous TiO2 and could rapidly be extrapolated to other, more stable PSC architectures, paving a route towards commercialization.
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