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Design of Perovskite Thermally Co‐Evaporated Highly Efficient Mini‐Modules with High Geometrical Fill Factors

Jia Li, Herlina Arianita Dewi, Hao Wang, Jia Haur Lew, Nripan Mathews, Subodh G. Mhaisalkar, Annalisa Bruno

2020Solar RRL51 citationsDOIOpen Access PDF

Abstract

Perovskite solar cells (PSCs) have emerged as a promising technology for next‐generation photovoltaics thanks to their high power‐conversion‐efficiency (PCE). Scaling up PSCs using industrially compatible processes is a key requirement to make them suitable for a variety of applications. Herein, large‐area PSCs and perovskite solar modules (PSMs) are developed based on co‐evaporated MAPbI 3 using optimized structures and active area designs to enhance PCEs and geometrical fill factors (GFFs). Small‐area co‐evaporated PSCs (0.16 cm 2 ) achieve PCE over 19%. When the PSCs are scaled‐up, the thin films high quality allows them to maintain consistent V oc and J sc , while their fill factors (FF), which depend on the substrate sheet resistance, are substantially compromised. However, PSCs with active areas from 1.4 to 7 cm 2 show a substantially improved FF when rectangular designs with optimized length to width ratios are used. Reasoning these results in the PSM design with optimal subcell size and for specific dead areas, a 6.4 cm 2 PSM is demonstrated with a record 18.4% PCE and a GFF of ≈91%. Combining the high uniformity of the co‐evaporation deposition with active areas design, it is possible to scale up 40 times the PSCs with PCE losses smaller than 0.7% (absolute value).

Topics & Concepts

Materials scienceEnergy conversion efficiencyPerovskite (structure)Substrate (aquarium)PhotovoltaicsEvaporationPhotovoltaic systemOptoelectronicsDeposition (geology)NanotechnologyScalingChemical engineeringElectrical engineeringEngineeringPaleontologyOceanographyPhysicsThermodynamicsBiologyGeometryMathematicsGeologySedimentPerovskite Materials and ApplicationsQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin Films
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