Ultrastable Supramolecular Self‐Encapsulated Wide‐Bandgap Conjugated Polymers for Large‐Area and Flexible Electroluminescent Devices

Lin, Jinyi; Liu, Bin; Yu, Mengna; Wang, Xuhua; Lin, Zhenyang; Zhang, Xinwen; Sun, Chen; Cabanillas‐González, Juan; Xie, Linghai; Liu, Feng; Ou, Changjin; Bai, Lubing; Han, Yamin; Xu, Man; Zhu, Wen-Sai; Smith, Trevor A.; Stavrinou, Paul N.; Bradley, Donal D. C.; Huang, Wei

doi:10.1002/adma.201804811

Cited by 81 publications

(101 citation statements)

References 64 publications

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“…Meanwhile, from the fluorescence excitation–emission contour plot (Figure 4D), it is easy to observe that emission peak of the rac ‐DPFOH microcrystal presented exceptionally well‐resolved structure with narrower and sharper emission peaks than those of meso ‐DPFOH microcrystals, similar to single molecular chain of polyfluorenes, such as octafluorenes. [ 36,39–41 ] Compared to the thin spin‐coated film, this red‐shifted spectra of microcrystal are associated with the strong re‐absorption and weaker intermolecular aggregation in the crystal states. Besides, combined with the analysis of weak interaction in diastereomer, due to discrete columns of supramolecular polymers in rac ‐DPFOH crystalline framework by CH…O and π…π interactions along the [100] direction, microrods exhibit spectral behaviors of single‐strand polymer with fine‐structured emission, similar to the emission of amorphous film.…”

Section: Resultsmentioning

confidence: 99%

“…[ 35 ] As displayed in Figure 1A, DPFOH with supramolecular segment (hydroxyl), repulsive steric bulk (benzene), and chiral carbons (9‐site carbon), is expected to exhibit structural diversity, according to the synergistically molecular attractor‐repulsor theory (SMART). [ 36 ] DPFOH molecules contain two chiral centers, and there are three possible stereoisomers overall—one pair of diastereomers (raceme ( rac ) and mesomer ( meso ) (Figure 1A). As we expected, both diastereomers have similar fundamental photophysical and electrochemical characteristics in solution and amorphous film, which could be attributed to their similar conjugated backbone structures.…”

Section: Introductionmentioning

confidence: 99%

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Diastereoisomer‐Induced Morphology Tunable Self‐Assembled Organic Microcrystals of Conjugated Molecules for Ultraviolet Laser

Liu

Yang

Xie

et al. 2020

Adv Materials Inter

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Precisely controlling self‐assembly behavior and micro/nanostructure morphology of conjugated materials is significant for constructing optoelectronic devices. Inspired by natural functional materials, molecular stereoisomerism strategy (MSS) is an effective and convenient means to tune their molecular arrangement and macroscopic property of conjugated materials. Herein, a supramolecular chiral difluorenols, 9,9′‐diphenyl‐9H,9′H‐[2,2′‐bifluorene]‐9,9′‐diol (DPFOH), is set as a desirable model to reveal the diastereomeric effects of conjugated molecules toward controlling the micro/nanostructure morphology and optoelectronic behavior for deep‐blue organic laser. Two diastereomers, raceme (rac)‐ and mesomer (meso)‐DPFOH, are obtained and unambiguously elucidated by X‐ray crystallography. It is common sense to observe the slight diastereomeric effects on photophysical properties and electrochemical characteristics in solution or pristine film state for the isotropic phase. Interestingly, as a consequent of the disparate multi‐dimensional intermolecular interaction, rac‐DPFOH molecule can self‐assemble into 1D rod‐shaped but rectangular plate‐shaped microcrystals for meso‐DPFOH. Impressively, rac‐DPFOH microrod presents a well‐defined emission with an excellent ultraviolet microlasing behavior at 398 nm, whereas the 2D microplate of meso‐DPFOH show a broad emission centered at 420 nm without gain processing. Therefore, MSS provides a new approach to design conjugated molecules and tune superstructure morphology for optoelectronic applications.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Diastereoisomer‐Induced Morphology Tunable Self‐Assembled Organic Microcrystals of Conjugated Molecules for Ultraviolet Laser

Liu

Yang

Xie

et al. 2020

Adv Materials Inter

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“…Clearly, the detrimental effects of aggregation are essentially absent for AF8 in the solid state. Such a direct transfer of luminescence properties from solution to the solid state is remarkable for a conjugated polymer [54][55][56][57] and, to the best of our knowledge, completely unprecedented for one based on anthracene (Table S3 †). We note a slight extension of the PL tail to longer wavelengths in thin film, which we ascribe to interchain energy transfer to lower energy trap sites in the solid state.…”

Section: Photophysical Propertiesmentioning

confidence: 93%

Suppressing aggregation induced quenching in anthracene based conjugated polymers

et al. 2021

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“…[ 13 ] Herein, we synthesized a novel Th‐based blue fluorescent steric molecule MC8‐Th with exceptional amplified spontaneous emission (ASE) behavior for deep‐blue organic lasers ( Scheme a). [ 52,53 ] It is believed that the steric unit at 9‐postion will partial suppress intermolecular aggregation at molecular level and precisely tune molecular self‐crystallization behavior. [ 13,18,30,32 ] Although it presents low PLQY value (8.8%), the spin‐coated neat film exhibits exceptional deep‐blue ASE behavior with a remarkably low threshold of 6.0 µJ cm −2 and full‐width‐at‐half‐maximum (FWHM) value of 2.6 nm under vacuum atmosphere.…”

Section: Introductionmentioning

confidence: 99%

Deep‐Blue Thiophene‐Based Steric Oligomers as a Low‐Threshold Laser Gain and Host Material

Han

Bai

et al. 2020

Advanced Optical Materials

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Thiophene‐based (Th‐based) derivatives have received wide attentions in organic optoelectronics due to their excellent and tuneable optoelectrical properties as well as chemical modification. However, the low photoluminescence quantum yield in solid state limits their application in solution‐processed light‐emitting optoelectronic devices, especially in organic lasers. Herein, a novel blue‐emitting steric Th‐based fluorophore (MC8‐Th) with excellent optical gain behavior for organic laser is reported. Interestingly, MC8‐Th neat film exhibits efficient exceptional deep‐blue amplified spontaneous emission (ASE) behavior with a remarkably low threshold of 6.0 µJ cm−2 and full‐width‐at‐half‐maximum value of 2.6 nm. Furthermore, random laser signals are also obtained with the lowest threshold of 4.1 µJ cm−2 when incorporating the compound into an inert polystyrene (PS) matrix. In addition, low threshold (16 µJ cm−2, fivefold lower than those of F8BT neat films) yellow–green ASE emission (560 nm) is achieved through Förster resonance energy transfer. Meanwhile, ultrafast transient absorption spectroscopy is deployed here to observe the single‐molecular excitonic behavior in solution and PS‐blend, intermolecular excited state in neat film, and efficient energy transfer in MC8‐Th:F8BT‐blend films. As far as known, MC8‐Th shows lower threshold ASE/lasing behavior for the Th‐based conjugated materials.

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Ultrastable Supramolecular Self‐Encapsulated Wide‐Bandgap Conjugated Polymers for Large‐Area and Flexible Electroluminescent Devices

Cited by 81 publications

References 64 publications

Diastereoisomer‐Induced Morphology Tunable Self‐Assembled Organic Microcrystals of Conjugated Molecules for Ultraviolet Laser

Diastereoisomer‐Induced Morphology Tunable Self‐Assembled Organic Microcrystals of Conjugated Molecules for Ultraviolet Laser

Suppressing aggregation induced quenching in anthracene based conjugated polymers

Deep‐Blue Thiophene‐Based Steric Oligomers as a Low‐Threshold Laser Gain and Host Material

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