Donor Interlocked Molecular Design for Fluorescence-like Narrow Emission in Deep Blue Thermally Activated Delayed Fluorescent Emitters

Yong Joo Cho; Sang Kyu Jeon; Sang Shin Lee; Eunsun Yu; Jun Yeob Lee

doi:10.1021/acs.chemmater.6b01484

Donor Interlocked Molecular Design for Fluorescence-like Narrow Emission in Deep Blue Thermally Activated Delayed Fluorescent Emitters

Yong Joo Cho
, Sang Kyu Jeon
, Sang Shin Lee
, Eunsun Yu
, Jun Yeob Lee

Department of Chemical Engineering

Dankook University
University of Waterloo
Sungkyunkwan University
Samsung

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

152 Scopus citations

Abstract

Deep blue thermally activated delayed fluorescent (TADF) emitters with a narrow emission spectrum were developed by managing the molecular structure of the TADF emitters. The deep blue TADF emitters were designed to show large steric hindrance at the central core of the molecule and small singlet-triplet energy gap. The molecular engineering of the deep blue TADF emitters enabled the fabrication of the deep blue TADF device with a full width at half-maximum of only 48 nm and a quantum efficiency of 14.0%. The full width at half-maximum of the deep blue TADF device was similar to that of conventional fluorescent devices, while the quantum efficiency was more than tripled.

Original language	English
Pages (from-to)	5400-5405
Number of pages	6
Journal	Chemistry of Materials
Volume	28
Issue number	15
DOIs	https://doi.org/10.1021/acs.chemmater.6b01484
State	Published - 9 Aug 2016

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title = "Donor Interlocked Molecular Design for Fluorescence-like Narrow Emission in Deep Blue Thermally Activated Delayed Fluorescent Emitters",

abstract = "Deep blue thermally activated delayed fluorescent (TADF) emitters with a narrow emission spectrum were developed by managing the molecular structure of the TADF emitters. The deep blue TADF emitters were designed to show large steric hindrance at the central core of the molecule and small singlet-triplet energy gap. The molecular engineering of the deep blue TADF emitters enabled the fabrication of the deep blue TADF device with a full width at half-maximum of only 48 nm and a quantum efficiency of 14.0\%. The full width at half-maximum of the deep blue TADF device was similar to that of conventional fluorescent devices, while the quantum efficiency was more than tripled.",

author = "Cho, \{Yong Joo\} and Jeon, \{Sang Kyu\} and Lee, \{Sang Shin\} and Eunsun Yu and Lee, \{Jun Yeob\}",

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AU - Cho, Yong Joo

AU - Jeon, Sang Kyu

AU - Lee, Sang Shin

AU - Yu, Eunsun

AU - Lee, Jun Yeob

PY - 2016/8/9

Y1 - 2016/8/9

N2 - Deep blue thermally activated delayed fluorescent (TADF) emitters with a narrow emission spectrum were developed by managing the molecular structure of the TADF emitters. The deep blue TADF emitters were designed to show large steric hindrance at the central core of the molecule and small singlet-triplet energy gap. The molecular engineering of the deep blue TADF emitters enabled the fabrication of the deep blue TADF device with a full width at half-maximum of only 48 nm and a quantum efficiency of 14.0%. The full width at half-maximum of the deep blue TADF device was similar to that of conventional fluorescent devices, while the quantum efficiency was more than tripled.

AB - Deep blue thermally activated delayed fluorescent (TADF) emitters with a narrow emission spectrum were developed by managing the molecular structure of the TADF emitters. The deep blue TADF emitters were designed to show large steric hindrance at the central core of the molecule and small singlet-triplet energy gap. The molecular engineering of the deep blue TADF emitters enabled the fabrication of the deep blue TADF device with a full width at half-maximum of only 48 nm and a quantum efficiency of 14.0%. The full width at half-maximum of the deep blue TADF device was similar to that of conventional fluorescent devices, while the quantum efficiency was more than tripled.

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Donor Interlocked Molecular Design for Fluorescence-like Narrow Emission in Deep Blue Thermally Activated Delayed Fluorescent Emitters

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