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White Organic Light-Emitting Diodes from Single-Component Nonconjugated Polymers by Combining Monomer Emission with Electromer Emission
by
Zheng, Chao
, Tao, Ye
, Zhou, Qi
, Cui, Dongyue
, Xu, Zhiwen
, Chen, Runfeng
, Li, Mingze
, Fu, Yujie
, Pan, Yaxuan
, Li, Huanhuan
in
Design
/ Efficiency
/ electromer
/ Energy transfer
/ Free radicals
/ Light emitting diodes
/ Molecular weight
/ nonconjugated luminescent polymer
/ organic light-emitting diodes
/ Polymer industry
/ Polymerization
/ Polymers
/ single-component white OLEDs
/ solution-processed OLEDs
/ white OLEDs
2025
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White Organic Light-Emitting Diodes from Single-Component Nonconjugated Polymers by Combining Monomer Emission with Electromer Emission
by
Zheng, Chao
, Tao, Ye
, Zhou, Qi
, Cui, Dongyue
, Xu, Zhiwen
, Chen, Runfeng
, Li, Mingze
, Fu, Yujie
, Pan, Yaxuan
, Li, Huanhuan
in
Design
/ Efficiency
/ electromer
/ Energy transfer
/ Free radicals
/ Light emitting diodes
/ Molecular weight
/ nonconjugated luminescent polymer
/ organic light-emitting diodes
/ Polymer industry
/ Polymerization
/ Polymers
/ single-component white OLEDs
/ solution-processed OLEDs
/ white OLEDs
2025
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White Organic Light-Emitting Diodes from Single-Component Nonconjugated Polymers by Combining Monomer Emission with Electromer Emission
by
Zheng, Chao
, Tao, Ye
, Zhou, Qi
, Cui, Dongyue
, Xu, Zhiwen
, Chen, Runfeng
, Li, Mingze
, Fu, Yujie
, Pan, Yaxuan
, Li, Huanhuan
in
Design
/ Efficiency
/ electromer
/ Energy transfer
/ Free radicals
/ Light emitting diodes
/ Molecular weight
/ nonconjugated luminescent polymer
/ organic light-emitting diodes
/ Polymer industry
/ Polymerization
/ Polymers
/ single-component white OLEDs
/ solution-processed OLEDs
/ white OLEDs
2025
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White Organic Light-Emitting Diodes from Single-Component Nonconjugated Polymers by Combining Monomer Emission with Electromer Emission
Journal Article
White Organic Light-Emitting Diodes from Single-Component Nonconjugated Polymers by Combining Monomer Emission with Electromer Emission
2025
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Overview
White organic light-emitting diodes (OLEDs) offer a promising solution for next-generation lighting technologies and their ability to emit white light through various mechanisms make them an attractive option for illumination and display applications. Here, we design and prepare a series of N,N-difluorenevinylaniline-based small molecules and polymer, and realize white OLEDs based on these luminescent materials with combined blue monomer emission and orange electromer emission upon electronic excitation in the solution-processed devices. Impressively, the single-component nonconjugated polymer exhibits the best device performance, because the nonconjugated structure favors good solubility of the polymers, while the conjugated starburst unit functions as highly luminescent fluorophore in both single molecular and aggregated structures for the blue and orange emissions, respectively. Specifically, the non-doped solution-processed OLEDs achieve warm white electroluminescence with a maximum luminance of 1806 cd/m2 and a maximum external quantum efficiency of 2.63%. And, the OLEDs based on the monomer also exhibit white electroluminescence with Commission Internationale de L’Eclairage coordinates of (0.30, 0.32). These results highlight a promising strategy for the material design and preparation of single-component nonconjugated polymers with rich emissive behaviors in solid states towards efficient and solution-processable white OLEDs.
Publisher
MDPI AG,Multidisciplinary Digital Publishing Institute (MDPI)
Subject
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