An efficient exciton harvest route for high-performance OLEDs based on aggregation-induced delayed fluorescence

Ling Yu; Zhongbin Wu; Guohua Xie; Cheng Zhong; Zece Zhu; Dongge Ma; Chuluo Yang

doi:10.1039/c7cc09925h

An efficient exciton harvest route for high-performance OLEDs based on aggregation-induced delayed fluorescence

Ling Yu, Zhongbin Wu, Guohua Xie, Cheng Zhong, Zece Zhu, Dongge Ma, Chuluo Yang

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

83 Scopus citations

Abstract

We managed to integrate the features of aggregation-induced emission (AIE) and thermally activated delayed fluorescence (TADF), by introducing a fluorine atom into the quinoxaline system for highly efficient fluorescent OLEDs. With a purposive design and well-controlled synthesis, two novel AIE-TADF compounds were demonstrated and characterized. Monofluoro-substituted SFDBQPXZ exhibited high efficiencies in a doped OLED with a maximum EQE of 23.5%, a maximum current efficiency (CE) of 78.3 cd A^-1 and a maximum power efficiency (PE) of 91.1 lm W^-1. Noteworthily, by employing SFDBQPXZ as an orange emitter in a non-doped device, we have realized a considerably high EQE over 10%. The high efficiency and low roll-off in the doped or non-doped devices make our strategy promising and meaningful for OLED applications.

Original language	English
Pages (from-to)	1379-1382
Number of pages	4
Journal	Chemical Communications
Volume	54
Issue number	11
DOIs	https://doi.org/10.1039/c7cc09925h
State	Published - 2018
Externally published	Yes

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title = "An efficient exciton harvest route for high-performance OLEDs based on aggregation-induced delayed fluorescence",

abstract = "We managed to integrate the features of aggregation-induced emission (AIE) and thermally activated delayed fluorescence (TADF), by introducing a fluorine atom into the quinoxaline system for highly efficient fluorescent OLEDs. With a purposive design and well-controlled synthesis, two novel AIE-TADF compounds were demonstrated and characterized. Monofluoro-substituted SFDBQPXZ exhibited high efficiencies in a doped OLED with a maximum EQE of 23.5%, a maximum current efficiency (CE) of 78.3 cd A-1 and a maximum power efficiency (PE) of 91.1 lm W-1. Noteworthily, by employing SFDBQPXZ as an orange emitter in a non-doped device, we have realized a considerably high EQE over 10%. The high efficiency and low roll-off in the doped or non-doped devices make our strategy promising and meaningful for OLED applications.",

author = "Ling Yu and Zhongbin Wu and Guohua Xie and Cheng Zhong and Zece Zhu and Dongge Ma and Chuluo Yang",

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year = "2018",

doi = "10.1039/c7cc09925h",

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T1 - An efficient exciton harvest route for high-performance OLEDs based on aggregation-induced delayed fluorescence

AU - Yu, Ling

AU - Wu, Zhongbin

AU - Xie, Guohua

AU - Zhong, Cheng

AU - Zhu, Zece

AU - Ma, Dongge

AU - Yang, Chuluo

PY - 2018

Y1 - 2018

N2 - We managed to integrate the features of aggregation-induced emission (AIE) and thermally activated delayed fluorescence (TADF), by introducing a fluorine atom into the quinoxaline system for highly efficient fluorescent OLEDs. With a purposive design and well-controlled synthesis, two novel AIE-TADF compounds were demonstrated and characterized. Monofluoro-substituted SFDBQPXZ exhibited high efficiencies in a doped OLED with a maximum EQE of 23.5%, a maximum current efficiency (CE) of 78.3 cd A-1 and a maximum power efficiency (PE) of 91.1 lm W-1. Noteworthily, by employing SFDBQPXZ as an orange emitter in a non-doped device, we have realized a considerably high EQE over 10%. The high efficiency and low roll-off in the doped or non-doped devices make our strategy promising and meaningful for OLED applications.

AB - We managed to integrate the features of aggregation-induced emission (AIE) and thermally activated delayed fluorescence (TADF), by introducing a fluorine atom into the quinoxaline system for highly efficient fluorescent OLEDs. With a purposive design and well-controlled synthesis, two novel AIE-TADF compounds were demonstrated and characterized. Monofluoro-substituted SFDBQPXZ exhibited high efficiencies in a doped OLED with a maximum EQE of 23.5%, a maximum current efficiency (CE) of 78.3 cd A-1 and a maximum power efficiency (PE) of 91.1 lm W-1. Noteworthily, by employing SFDBQPXZ as an orange emitter in a non-doped device, we have realized a considerably high EQE over 10%. The high efficiency and low roll-off in the doped or non-doped devices make our strategy promising and meaningful for OLED applications.

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U2 - 10.1039/c7cc09925h

DO - 10.1039/c7cc09925h

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VL - 54

SP - 1379

EP - 1382

JO - Chemical Communications

JF - Chemical Communications

IS - 11

ER -

An efficient exciton harvest route for high-performance OLEDs based on aggregation-induced delayed fluorescence

Abstract

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