Designing Efficient and Ultralong Pure Organic Room-Temperature Phosphorescent Materials by Structural Isomerism

Yu Xiong; Zheng Zhao; Weijun Zhao; Huili Ma; Qian Peng; Zikai He; Xuepeng Zhang; Yuncong Chen; Xuewen He; Jacky W.Y. Lam; Ben Zhong Tang

doi:10.1002/anie.201800834

Designing Efficient and Ultralong Pure Organic Room-Temperature Phosphorescent Materials by Structural Isomerism

Yu Xiong
, Zheng Zhao
, Weijun Zhao
, Huili Ma
, Qian Peng^*
, Zikai He
, Xuepeng Zhang
, Yuncong Chen
, Xuewen He
, Jacky W.Y. Lam
, Ben Zhong Tang

^*Corresponding author for this work

Hong Kong University of Science and Technology
CAS - Institute of Chemistry
Harbin Institute of Technology
South China University of Technology

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

268 Scopus citations

Abstract

Pure organic materials with ultralong room-temperature phosphorescence (RTP) are attractive alternatives to inorganic phosphors. However, they generally show inefficient intersystem crossing (ISC) owing to weak spin–orbit coupling (SOC). A design principle based on the realization of small energy gap between the lowest singlet and triplet states (ΔE_ST) and pure ππ* configuration of the lowest triplet state (T₁) via structural isomerism was used to obtain efficient and ultralong RTP materials. The meta isomer of carbazole-substituted methyl benzoate exhibits an ultralong lifetime of 795.0 ms with a quantum yield of 2.1 %. Study of the structure–property relationship shows that the varied steric and conjugation effects imposed by ester substituent at different positions are responsible for the small ΔE_ST and pure ππ* configuration of T₁.

Original language	English
Pages (from-to)	7997-8001
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	27
DOIs	https://doi.org/10.1002/anie.201800834
State	Published - 2 Jul 2018
Externally published	Yes

Keywords

carbazoles
charge transfer
fluorescence
phosphorescence
small energy gap

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10.1002/anie.201800834

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title = "Designing Efficient and Ultralong Pure Organic Room-Temperature Phosphorescent Materials by Structural Isomerism",

abstract = "Pure organic materials with ultralong room-temperature phosphorescence (RTP) are attractive alternatives to inorganic phosphors. However, they generally show inefficient intersystem crossing (ISC) owing to weak spin–orbit coupling (SOC). A design principle based on the realization of small energy gap between the lowest singlet and triplet states (ΔEST) and pure ππ* configuration of the lowest triplet state (T1) via structural isomerism was used to obtain efficient and ultralong RTP materials. The meta isomer of carbazole-substituted methyl benzoate exhibits an ultralong lifetime of 795.0 ms with a quantum yield of 2.1 \%. Study of the structure–property relationship shows that the varied steric and conjugation effects imposed by ester substituent at different positions are responsible for the small ΔEST and pure ππ* configuration of T1.",

keywords = "carbazoles, charge transfer, fluorescence, phosphorescence, small energy gap",

author = "Yu Xiong and Zheng Zhao and Weijun Zhao and Huili Ma and Qian Peng and Zikai He and Xuepeng Zhang and Yuncong Chen and Xuewen He and Lam, \{Jacky W.Y.\} and Tang, \{Ben Zhong\}",

note = "Publisher Copyright: {\textcopyright} 2018 Wiley-VCH Verlag GmbH \& Co. KGaA, Weinheim",

year = "2018",

month = jul,

day = "2",

doi = "10.1002/anie.201800834",

language = "英语",

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journal = "Angewandte Chemie - International Edition",

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T1 - Designing Efficient and Ultralong Pure Organic Room-Temperature Phosphorescent Materials by Structural Isomerism

AU - Xiong, Yu

AU - Zhao, Zheng

AU - Zhao, Weijun

AU - Ma, Huili

AU - Peng, Qian

AU - He, Zikai

AU - Zhang, Xuepeng

AU - Chen, Yuncong

AU - He, Xuewen

AU - Lam, Jacky W.Y.

AU - Tang, Ben Zhong

PY - 2018/7/2

Y1 - 2018/7/2

N2 - Pure organic materials with ultralong room-temperature phosphorescence (RTP) are attractive alternatives to inorganic phosphors. However, they generally show inefficient intersystem crossing (ISC) owing to weak spin–orbit coupling (SOC). A design principle based on the realization of small energy gap between the lowest singlet and triplet states (ΔEST) and pure ππ* configuration of the lowest triplet state (T1) via structural isomerism was used to obtain efficient and ultralong RTP materials. The meta isomer of carbazole-substituted methyl benzoate exhibits an ultralong lifetime of 795.0 ms with a quantum yield of 2.1 %. Study of the structure–property relationship shows that the varied steric and conjugation effects imposed by ester substituent at different positions are responsible for the small ΔEST and pure ππ* configuration of T1.

AB - Pure organic materials with ultralong room-temperature phosphorescence (RTP) are attractive alternatives to inorganic phosphors. However, they generally show inefficient intersystem crossing (ISC) owing to weak spin–orbit coupling (SOC). A design principle based on the realization of small energy gap between the lowest singlet and triplet states (ΔEST) and pure ππ* configuration of the lowest triplet state (T1) via structural isomerism was used to obtain efficient and ultralong RTP materials. The meta isomer of carbazole-substituted methyl benzoate exhibits an ultralong lifetime of 795.0 ms with a quantum yield of 2.1 %. Study of the structure–property relationship shows that the varied steric and conjugation effects imposed by ester substituent at different positions are responsible for the small ΔEST and pure ππ* configuration of T1.

KW - carbazoles

KW - charge transfer

KW - fluorescence

KW - phosphorescence

KW - small energy gap

UR - https://www.scopus.com/pages/publications/85049038889

U2 - 10.1002/anie.201800834

DO - 10.1002/anie.201800834

M3 - 文章

C2 - 29736955

AN - SCOPUS:85049038889

SN - 1433-7851

VL - 57

SP - 7997

EP - 8001

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 27

ER -

Designing Efficient and Ultralong Pure Organic Room-Temperature Phosphorescent Materials by Structural Isomerism

Abstract

Keywords

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