Lifetime enhancement of exciplex based organic light-emitting diodes by triplet exciton engineering

A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied by managing the intermolecular interaction and concentration quenching of exciplexes. The exciplexes were made up of a p-type material and a bipolar n-type material, in which the ratio of the p-typ...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 93; pp. 388 - 393
Main Authors Jang, Ho Jin, Lee, Jun Yeob
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.01.2021
한국공업화학회
Subjects
Efficiency
Exciplex
Fluorescence
Lifetime
화학공학
Exciplex
Fluorescence
Lifetime
Efficiency
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2020.10.016

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Abstract A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied by managing the intermolecular interaction and concentration quenching of exciplexes. The exciplexes were made up of a p-type material and a bipolar n-type material, in which the ratio of the p-type material was less than 50% for dispersion in the n-type material to copy the conventional host-dopant type emitting layer. The exciplexes generated between the p-type material and n-type material were dispersed in the n-type material. The device lifetime of the exciplex organic light-emitting diodes was extended by almost four times through control of the p-type material content by mimicking the host-dopant system. The analysis of the lifetime improvement mechanism revealed that suppression of triplet exciton loss by strong intermolecular interaction and concentration quenching was the major pathway to stabilize the exciplex devices by dispersion. Additionally, the device lifetime of the fluorescence emitter doped exciplex devices was extended by more than three times. Therefore, the exciplexes with a p-type material dispersed in the bipolar n-type material were effective to elongate the device lifetime of the exciplex based organic light-emitting diodes.
AbstractList A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied bymanaging the intermolecular interaction and concentration quenching of exciplexes. The exciplexes weremade up of a p-type material and a bipolar n-type material, in which the ratio of the p-type material wasless than 50% for dispersion in the n-type material to copy the conventional host-dopant type emittinglayer. The exciplexes generated between the p-type material and n-type material were dispersed in the ntypematerial. The device lifetime of the exciplex organic light-emitting diodes was extended by almostfour times through control of the p-type material content by mimicking the host-dopant system. Theanalysis of the lifetime improvement mechanism revealed that suppression of triplet exciton loss bystrong intermolecular interaction and concentration quenching was the major pathway to stabilize theexciplex devices by dispersion. Additionally, the device lifetime of thefluorescence emitter dopedexciplex devices was extended by more than three times. Therefore, the exciplexes with a p-type materialdispersed in the bipolar n-type material were effective to elongate the device lifetime of the exciplexbased organic light-emitting diodes. KCI Citation Count: 1
A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied by managing the intermolecular interaction and concentration quenching of exciplexes. The exciplexes were made up of a p-type material and a bipolar n-type material, in which the ratio of the p-type material was less than 50% for dispersion in the n-type material to copy the conventional host-dopant type emitting layer. The exciplexes generated between the p-type material and n-type material were dispersed in the n-type material. The device lifetime of the exciplex organic light-emitting diodes was extended by almost four times through control of the p-type material content by mimicking the host-dopant system. The analysis of the lifetime improvement mechanism revealed that suppression of triplet exciton loss by strong intermolecular interaction and concentration quenching was the major pathway to stabilize the exciplex devices by dispersion. Additionally, the device lifetime of the fluorescence emitter doped exciplex devices was extended by more than three times. Therefore, the exciplexes with a p-type material dispersed in the bipolar n-type material were effective to elongate the device lifetime of the exciplex based organic light-emitting diodes.
Author Jang, Ho Jin
Lee, Jun Yeob
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Fluorescence
Lifetime
Efficiency
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Snippet A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied by managing the intermolecular interaction and...
A device approach to improve the device lifetime of exciplex organic light-emitting diodes was studied bymanaging the intermolecular interaction and...
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Publisher
StartPage 388
SubjectTerms Efficiency
Exciplex
Fluorescence
Lifetime
화학공학
Title Lifetime enhancement of exciplex based organic light-emitting diodes by triplet exciton engineering
URI https://dx.doi.org/10.1016/j.jiec.2020.10.016
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