Fully Inkjet‐Printed Green‐Emitting PEDOT:PSS/NiO/Colloidal CsPbBr3/SnO2 Perovskite Light‐Emitting Diode on Rigid and Flexible Substrates

G Vescio, G Mathiazhagan… - Advanced …, 2023 - Wiley Online Library
Advanced Engineering Materials, 2023Wiley Online Library
After establishing themselves as promising active materials in the field of solar cells, halide
perovskites are currently being explored for fabrication of low‐cost, easily processable, and
highly efficient light‐emitting diodes (LEDs). Despite this, the highest efficiencies reported for
perovskite‐based LEDs (PeLEDs) are achieved through spin coating or vacuum
evaporation deposition techniques, which are not adequate, in most of the cases, for an
industrial‐scale production. Additionally, the long‐term stability is still a big handicap, even …
After establishing themselves as promising active materials in the field of solar cells, halide perovskites are currently being explored for fabrication of low‐cost, easily processable, and highly efficient light‐emitting diodes (LEDs). Despite this, the highest efficiencies reported for perovskite‐based LEDs (PeLEDs) are achieved through spin coating or vacuum evaporation deposition techniques, which are not adequate, in most of the cases, for an industrial‐scale production. Additionally, the long‐term stability is still a big handicap, even though all inorganic perovskites, such as CsPbBr3, are found to be more stable to external variables. In this context, herein, the fabrication of fully inkjet‐printed (IJP) CsPbBr3‐based PeLEDs in ambient conditions, on rigid and flexible substrates, on a proof‐of‐concept basis, with the successful incorporation of NiO and SnO2 as hole‐ and electron‐selective contacts, respectively, is reported. Despite the moderate luminance (324 cd m−2) value obtained, this result paves the way toward the development of upscalable fabrication of PeLEDs based on deposition techniques with controlled spatial resolution.
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