High efficient vacuum deposited red organic light-emitting diodes compared with their solution-processed counterpart

Vijaya Gopalan Sree; Hoyeol Park; Woosum Cho; Sung Ho Jin

doi:10.1080/15421406.2017.1355696

High efficient vacuum deposited red organic light-emitting diodes compared with their solution-processed counterpart

Vijaya Gopalan Sree
, Hoyeol Park
, Woosum Cho
, Sung Ho Jin

Department of Physics

Pusan National University

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Herein, we demonstrate dry- and wet-process feasible red (PhQ-Th)₃Ir complex as dopant and improved external quantum efficiency (EQE) of the device by 30.17% though vacuum-process using the same device structure. The turn-on voltage is reduced to less than 3 V by adopting vacuum deposition process. The vacuum-processed devices showed EQE and power efficiency of 26.75% and 28.90 lm/W, respectively, with turn on voltage of 2.83 V. The maximum luminance is increased from 1088 cd/m² to 6396 cd/m² using dry-process. It is found that the difference in device performance is attributed to their morphological variance of solution- and vacuum-processed devices.

Original language	English
Pages (from-to)	73-82
Number of pages	10
Journal	Molecular Crystals and Liquid Crystals
Volume	654
Issue number	1
DOIs	https://doi.org/10.1080/15421406.2017.1355696
State	Published - 2 Sep 2017

Keywords

Iridium
PhOLEDs
solution processing
vacuum processing

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title = "High efficient vacuum deposited red organic light-emitting diodes compared with their solution-processed counterpart",

abstract = "Herein, we demonstrate dry- and wet-process feasible red (PhQ-Th)3Ir complex as dopant and improved external quantum efficiency (EQE) of the device by 30.17\% though vacuum-process using the same device structure. The turn-on voltage is reduced to less than 3 V by adopting vacuum deposition process. The vacuum-processed devices showed EQE and power efficiency of 26.75\% and 28.90 lm/W, respectively, with turn on voltage of 2.83 V. The maximum luminance is increased from 1088 cd/m2 to 6396 cd/m2 using dry-process. It is found that the difference in device performance is attributed to their morphological variance of solution- and vacuum-processed devices.",

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doi = "10.1080/15421406.2017.1355696",

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T1 - High efficient vacuum deposited red organic light-emitting diodes compared with their solution-processed counterpart

AU - Sree, Vijaya Gopalan

AU - Park, Hoyeol

AU - Cho, Woosum

AU - Jin, Sung Ho

PY - 2017/9/2

Y1 - 2017/9/2

N2 - Herein, we demonstrate dry- and wet-process feasible red (PhQ-Th)3Ir complex as dopant and improved external quantum efficiency (EQE) of the device by 30.17% though vacuum-process using the same device structure. The turn-on voltage is reduced to less than 3 V by adopting vacuum deposition process. The vacuum-processed devices showed EQE and power efficiency of 26.75% and 28.90 lm/W, respectively, with turn on voltage of 2.83 V. The maximum luminance is increased from 1088 cd/m2 to 6396 cd/m2 using dry-process. It is found that the difference in device performance is attributed to their morphological variance of solution- and vacuum-processed devices.

AB - Herein, we demonstrate dry- and wet-process feasible red (PhQ-Th)3Ir complex as dopant and improved external quantum efficiency (EQE) of the device by 30.17% though vacuum-process using the same device structure. The turn-on voltage is reduced to less than 3 V by adopting vacuum deposition process. The vacuum-processed devices showed EQE and power efficiency of 26.75% and 28.90 lm/W, respectively, with turn on voltage of 2.83 V. The maximum luminance is increased from 1088 cd/m2 to 6396 cd/m2 using dry-process. It is found that the difference in device performance is attributed to their morphological variance of solution- and vacuum-processed devices.

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KW - PhOLEDs

KW - solution processing

KW - vacuum processing

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JO - Molecular Crystals and Liquid Crystals

JF - Molecular Crystals and Liquid Crystals

IS - 1

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High efficient vacuum deposited red organic light-emitting diodes compared with their solution-processed counterpart

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Keywords

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