Design, synthesis, and properties of <scp>polystyrene‐based through‐space</scp> charge transfer polymers: Effect of triplet energy level of electron donor moiety on delayed fluorescence and electroluminescence performance

Hu, Jun; Chang, Yufei; Fan, Chen; Yang, Qingqing; Shao, Shiyang; Wang, Lixiang

doi:10.1002/pol.20210870

Cited by 6 publications

(3 citation statements)

References 48 publications

(89 reference statements)

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“…Nonetheless, it is important to note that TADF does not consistently correlate with TSCT interactions. For instance, Wang’s group synthesized a naphthyl triazine acceptor with extended π-conjugation, resulting in a polymer displaying a TSCT emission peak but lacking delayed fluorescence. Hudson’s group systematically studied the combinations of common TADF donors and acceptors in an ATRP-base system .…”

Section: Emission Color Tuning Via Manipulation Of Charge Transfermentioning

confidence: 99%

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Recent Advances in Fluorescent Polymers with Color-Tunable Aggregate Emission

Ye,

Bao

2024

Chem. Mater.

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The modulation of fluorescence properties of light-emitting molecules, especially in solid or aggregate states, is crucial for their practical applications. Polymeric systems offer flexible structural design and solution-processing abilities, affording versatile platforms for achieving color-tunable aggregate fluorescence, especially for those with welldefined structures obtained by controlled polymerization. Meanwhile, the emergence of aggregation-induced emission (AIE) and thermally activated delayed fluorescence (TADF) concepts has revolutionized the field of light-emitting materials, including fluorescent polymers. This Review focuses on the recently developed polymer systems that have realized the fine-tuning of aggregate emissions. It delves into various color-tuning mechanisms, exploring molecular interactions such as dye−dye interactions, charge transfer, energy transfer, and the polymeric microenvironment. Special attention is given to through-space charge transfer (TSCT) and unconventional Forster resonance energy transfer (FRET), which have garnered significant interest recently. We aim to offer valuable insights into molecular structural design from the perspective of fluorescence color-tuning and eventually provide an outlook on potential directions for future research in this field.

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Section: Emission Color Tuning Via Manipulation Of Charge Transfermentioning

confidence: 99%

“…Nonetheless, it is important to note that TADF does not consistently correlate with TSCT interactions. For instance, Wang's group 113 system. 114 Notably, not all of the resulting polymers exhibited TADF; in some cases (e.g., the copolymer of phenoxazine and triazine), phosphorescence was identified.…”

Section: Tbct Polymersmentioning

confidence: 99%

Recent Advances in Fluorescent Polymers with Color-Tunable Aggregate Emission

Ye,

Bao

2024

Chem. Mater.

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“…Although OLEDs with deep-blue to yellow emission with good EQE (from 3 to 20%) were successfully fabricated by solution methods, these approaches suffer from a complicated multistep synthesis of TADF monomers. ,,,,− Therefore, much attention during recent years has been focused on side-chain TADF polymers with through-space charge-transfer (TSCT), which consist of a nonconjugated polymer chain with spatial donor–acceptor architecture. The emission colors of OLEDs based on TSCT polymers cover the whole visible range reaching EQE values as high as 19%. − Despite the promising results, the simplification of the synthetic methods to TSCT polymers is strongly required for cost-efficient fabrication of OLEDs. On the other hand, with rare exceptions, these polymers were synthesized using a conventional radical polymerization technique that results in high polydispersity and significant structural heterogeneity from one polymer chain to another or by ring-opening metathesis polymerization leading to the contamination of polymers by heavy metal. − Aiming at overcoming the above-mentioned limitations of TADF polymers, we proposed a new synthetic strategy toward TSCT polymers consisting of the preparation of alternating donor–acceptor copolymers with a nonconjugated structure, where donor ( D ) and acceptor ( A ) side groups will be located close enough to enable through-space π–π interaction between them.…”

Section: Introductionmentioning

confidence: 99%

Through-Space Charge-Transfer Thermally Activated Delayed Fluorescence Alternating Donor–Acceptor Copolymers for Nondoped Solution-Processable OLEDs

et al. 2023

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A series of donor−acceptor alternating copolymers with M n ≤ 12,000 g mol −1 and moderate polydispersity (Đ = 1.5− 2.5) were synthesized via RAFT copolymerization of styrene-based donor monomers and maleimide-type acceptor monomers in the presence of S-dodecyl-S′-(α,α′-dimethyl-α″-acetic acid)trithiocarbonate as a chain transfer agent. It was shown that synthesized alternating copolymers were characterized by high thermal stability (T d5 = 375−465 °C), and most of them exhibited exciplex emission via the through-space charge-transfer (TSCT) mechanism and displayed aggregation-induced emission. The color of the emission of synthesized copolymers largely depended on the nature of the acceptor monomer and could be changed from blue to orange depending on the copolymer structure. These copolymers in solid state demonstrated delayed fluorescence in the range between 0.35 and 6.2 μs and moderate photoluminescence quantum yield (2.12−6.32%) in air. Multicolor host-free solutionprocessable TADF OLEDs using synthesized alternating copolymers as emitters were fabricated, which showed good stability of electroluminescence spectra at different voltages. The highest external quantum efficiency of 7.84% was reached for the green emitting device.

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