Koth AmratishaJitprabhat PonchaiPaphada KaewuraiPimsuda Pansa-ngatKusuma PinsuwanPisist KumnorkaewPipat RuankhamPongsakorn KanjanaboosThailand National Nanotechnology CenterMahidol UniversityChiang Mai UniversityScience2020-12-282020-12-282020-01-01Optical Materials Express. Vol.10, No.7 (2020), 1497-1508215939302-s2.0-85096474675https://repository.li.mahidol.ac.th/handle/123456789/60505© 2020 © 2020 Optical Society of America under the terms of the OSA Open Access Publishing Agreement Perovskite is an emerging material for high performance solar cell application with low-cost solution-processable fabrication. As an ink, perovskite composition can be easily modified to create semi-transparent solar cells for window replacement. To enable scalable large-scale production, the spray process is one of the major candidates. In this work, we developed sequential spray deposition (SSD) to create double layer absorbers from different dimensional perovskites. SSD, for the first time, achieves layer-by-layer deposition of different perovskite materials for stacked architecture. To demonstrate the benefits, we spray-coated lower dimension, more stable perovskite onto high performance yet sensitive 3D semi-transparent perovskite. SSD performed under a humid environment (40 - 50% RH) brings about better film stability and retains good performance of 3D perovskite. Sequential spray deposition opens new routes for various stacking designs and large-scale production under economical ambient conditions.Mahidol UniversityMaterials ScienceArticleSCOPUS10.1364/OME.391546