Toward Highly Efficient Solution‐Processable OLEDs: Inkjet Printing of TADF Emissive Layer

The fabrication of optoelectronic devices using low‐cost inkjet printing techniques is a topic of great interest to the scientific and industrial community and represents a step toward the full deployment of solution‐processable organic light emitting diodes (OLEDs), particularly for commercial ligh...

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Published in:Advanced electronic materials 2024-02, Vol.10 (2), p.n/a
Main Authors: Cinquino, Marco, Prontera, Carmela Tania, Maggiore, Antonio, Zizzari, Alessandra, Pugliese, Marco, Mariano, Fabrizio, Valenzano, Vitantonio, Palamà, Ilaria Elena, Manfredi, Riccardo, Gigli, Giuseppe, Maiorano, Vincenzo
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inkjet printing
OLEDs
self‐hosted
solution processed
TADF
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cited_by cdi_FETCH-LOGICAL-c3894-798eb0f0af14e62d5a84006d4d6a218b0fe65fd94cea1a6d939231e1243dc7ce3
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container_title Advanced electronic materials
container_volume 10
creator Cinquino, Marco
Prontera, Carmela Tania
Maggiore, Antonio
Zizzari, Alessandra
Pugliese, Marco
Mariano, Fabrizio
Valenzano, Vitantonio
Palamà, Ilaria Elena
Manfredi, Riccardo
Gigli, Giuseppe
Maiorano, Vincenzo
description The fabrication of optoelectronic devices using low‐cost inkjet printing techniques is a topic of great interest to the scientific and industrial community and represents a step toward the full deployment of solution‐processable organic light emitting diodes (OLEDs), particularly for commercial lighting and signaling applications. Herein, the inkjet printing of tBuCzDBA (9,10‐bis(4‐(3,6‐di‐tert‐butyl‐9H‐carbazol‐9‐yl)−2,6‐dimethylphenyl)−9,10‐diboraanthracene) is reported, a high‐performing thermally activated delayed fluorescence (TADF) emitter for OLEDs. Optimizing the surface tension values of the ink formulations and the associated wetting behavior are crucial parameters for achieving a uniform and homogeneous printed thin film. In particular, it is observed that using a proper mixture of solvents with different surface tensions, it is possible to generate Marangoni flows inside the drop, which triggers a very fast drying process, ensuring optimized morphological and optical properties in the inkjet printed tBuCzDBA‐based film. OLEDs exploiting this film as an emissive layer are then fabricated, achieving a maximum luminance of 32 000 cd m−2, a current efficiency of 27.5 cd A−1, and an external quantum efficiencyof 10%. To the best of the knowledge, this is the highest efficiency reported to date for self‐hosted TADF inkjet‐printed OLEDs. In this paper the inkjet printing of a high‐performing thermally activated delayed fluorescence emitter is reported, for organic light emitting diode applications. Using a proper mixture of solvents with different surface tensions, it is possible to generate beneficial Marangoni flows inside the drop, which trigger a very fast drying process, ensuring optimized morphological and optical properties in the inkjet printed film.
doi_str_mv 10.1002/aelm.202300358
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subjects inkjet printing
OLEDs
self‐hosted
solution processed
TADF
title Toward Highly Efficient Solution‐Processable OLEDs: Inkjet Printing of TADF Emissive Layer
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