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Improving the performance of quantum dot light-emitting diodes by tailoring QD emitters.

Zhaohan LiJiaojiao SongAn-Ming LiHuaibin ShenZuliang Du
Published in: Nanoscale (2023)
As the emitters of quantum dots (QDs) light-emitting diodes (QLEDs), QDs, which are responsible for the charge injection, charge transportation, and especially exciton recombination, play a significant role in QLEDs. With the crucial advances made in QDs, such as the advancement of synthetic methods and the understanding of luminescence mechanisms, QLEDs also demonstrate a dramatic improvement. Until now, efficiencies of 30.9%, 28.7% and 21.9% have been achieved in red, green and blue devices, respectively. However, in QLEDs, some issues are still to be solved, such as the imbalance of charge injection and exciton quenching processes (defect-assisted recombination, Auger recombination, energy transfer and exciton dissociation under a high electric field). In this review, we will provide an overview of recent advances in the study and understanding of the working mechanism of QLEDs and the exciton quenching mechanism of QDs in devices. Particular emphasis is placed on improving charge injection and suppressing exciton quenching. An in-depth understanding of this progress may help develop guidelines to direct QLED development.
Keyphrases
  • energy transfer
  • quantum dots
  • dna repair
  • dna damage
  • solar cells
  • ultrasound guided
  • sensitive detection
  • light emitting
  • signaling pathway