High efficiency blue organic light-emitting diodes with below-bandgap electroluminescence

Vasilopoulou, Maria; Yusoff, Abd. Rashid bin Mohd; Dabóczi, Mátyás; Conforto, Júlio; Gavim, Anderson Emanuel Ximim; Silva, Wilson José da; Macedo, Andréia G.; Soultati, Anastasia; Pistolis, George; Schneider, Fábio Kurt; Dong, Yifan; Jacoutot, Polina; Rotas, Georgios; Jang, Jin; Vougioukalakis, Georgios C.; Chochos, Christos L.; Kim, Jinhyun; Gasparini, Nicola

doi:10.1038/s41467-021-25135-z

Cited by 81 publications

(53 citation statements)

References 50 publications

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“…In 2021, Vasilopoulou et al used the DBFPO/TSPO1 interface exciplex with the highly efficient HTM T2fQ to confine the excitons at the EML/ETM interface, thereby avoiding the adverse effect of the low E T value of HTM on the device efficiency, and the maximum EQE of the blue device reached 41.2%. 69 DBFPO is bis(diphenylphosphine oxide)dibenzofuran and TSPO1 is diphenyl [4-(triphenylsilyl) phenyl]phosphineoxide. The device performance of interface exciplexes is summarized in Table 4.…”

Section: Interface Exciplex For Red Emissionmentioning

confidence: 99%

Intermolecular TADF: bulk and interface exciplexes

Tang

Guo

et al. 2022

J. Mater. Chem. C

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Section: Interface Exciplex For Red Emissionmentioning

confidence: 99%

Intermolecular TADF: bulk and interface exciplexes

Tang

Guo

et al. 2022

J. Mater. Chem. C

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“…Following the first report on TADF, rapid and exponential progress has been made towards developing highly efficient OLEDs with the current state of the art TADF OLEDs reaching up to 42 % presently. [46] Hybridized local charge transfer (HLCT) is another strategy for harvesting triplet excitons whereby, the triplet hot excitons (T m , where m > 2) (the excitons in higher energy state called hot excitons) are transferred to singlet higher state through reverse intersystem crossing. For efficient exciton utilization the energy gap between T m and T 1 state should be large so that internal conversion is restricted and the energy gap between T m and higher singlet state (S n , where n � 1) should be small so that efficient RISC occurs.…”

Section: P E R S O N a L A C C O U N T T H E C H E M I C A L R E C O R Dmentioning

confidence: 99%

“…The smaller ΔE ST of 0.11 eV was observed due to twisted donor‐acceptor structure which led to small orbital overlap and high EQE of 5.3 % was observed. Following the first report on TADF, rapid and exponential progress has been made towards developing highly efficient OLEDs with the current state of the art TADF OLEDs reaching up to 42 % presently [46] . Hybridized local charge transfer (HLCT) is another strategy for harvesting triplet excitons whereby, the triplet hot excitons (T m , where m >2) (the excitons in higher energy state called hot excitons) are transferred to singlet higher state through reverse intersystem crossing.…”

Section: Introductionmentioning

confidence: 99%

Discs to a ‘Bright’ Future: Exploring Discotic Liquid Crystals in Organic Light Emitting Diodes in the Era of New‐Age Smart Materials

Sharma

Sengupta

et al. 2022

The Chemical Record

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With the advent of a new decade and the paradigm shift of every sphere of urban life to virtual platforms, it has become imperative for the global researcher community to channelize efforts into upgradation of the existing display‐technology. In this context, discotic liquid crystals (DLCs) are a class of self‐assembling organic materials that are recently being explored in fabricating the emissive layers of organic light emitting diodes (OLEDs). With their unique inherent structural and functional properties, they have the potential to challenge the currently prevailing OLED‐emitters. Yet the applications of this promising class of materials in OLEDs have not been comprehensively reviewed in literature till now. In this account, we present an overview of the developments in the field of luminescent DLC‐based emitters, supported by their associated photophysical phenomena and their performance parameters as emitters in fabricated OLED devices.

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“…[5] Quinoxalines can also be used in organic solar cell polymers [1,6] and have been described as donor moieties in many TADF and OLED compounds. [7][8][9] Amongst many other possible ways to modify and extend the core structure of quinoxalines, the conversion of tetrazolo [1,5-a]quinoxalines offers several advantages, as tetrazolo [1,5-a]quinoxalines can be used as quinoxaline-azide precursor, serving as a precursor for new nitrogen-enriched quinoxaline-based structures. Literature-known procedures for such a quinoxaline modification starting from tetrazolo [1,5-a]quinoxalines 1 are the synthesis of 1,2,3-triazoloquinoxalines (3) via copper-catalyzed azide-alkyne cycloaddition (CuAAC) [10] and the synthesis of imidazo[1,2-a]quinoxalines (2), which was recently reported for the first time using tetraphenylporphyrin iron(III) chloride as a catalyst.…”

Section: Introductionmentioning

confidence: 99%

“…triazoloimidazoquinoxalines (TIQs): 2.5 equiv. hexyne, 10 mol% (CuOTf)2•C6H6(7), toluene, 100 °C, 4 h -3 d. ORTEP drawing of triazoloimidazoquinoxaline 25b with 50% probability.…”

mentioning

confidence: 99%

Scope of Tetrazolo[1,5-a]quinoxalines in CuAAC reactions for the Synthesis of Triazoloquinoxalines, Imidazoloquinoxalines, and Rhenium-complexes thereof

Holzhauer¹,

Liagre²,

Fuhr³

et al. 2022

Preprint

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The conversion of tetrazolo[1,5-a]quinoxalines to 1,2,3-triazoloquinoxalines and triazoloimidazoquinoxalines under typical conditions of a CuAAC reaction has been investigated. Derivatives of the novel compound class of triazoloimidazoquinoxalines (TIQ) and rhenium(I) triazoloquinoxaline complexes as well as a new TIQ rhenium complex were synthesized. As a result, a small 1,2,3-triazoloquinoxaline library was obtained and the method could be expanded towards 4-substituted tetrazoloquinoxalines. The compatibility of various aliphatic and aromatic alkynes towards the reaction was investigated and the denitrogenative annulation towards imidazoloquinoxalines could be observed as a competing reaction depending on the alkyne concentration and the substitutions at the quinoxaline.

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High efficiency blue organic light-emitting diodes with below-bandgap electroluminescence

Cited by 81 publications

References 50 publications

Intermolecular TADF: bulk and interface exciplexes

Intermolecular TADF: bulk and interface exciplexes

Discs to a ‘Bright’ Future: Exploring Discotic Liquid Crystals in Organic Light Emitting Diodes in the Era of New‐Age Smart Materials

Scope of Tetrazolo[1,5-a]quinoxalines in CuAAC reactions for the Synthesis of Triazoloquinoxalines, Imidazoloquinoxalines, and Rhenium-complexes thereof

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