Nondoped Blue Organic Light Emitting Devices with Donor−π–Acceptor Derivatives as the Emissive Material

Thanikachalam, Venugopal; Jeeva, Palanivel; Jayabharathi, Jayaraman; Ramanathan, P.; Prabhakaran, Annadurai; Purani, Elayaperumal Saroj

doi:10.1021/acs.iecr.6b02549

Cited by 10 publications

(5 citation statements)

References 48 publications

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“…The para ‐linked p TPA‐MPPPI shows excellent electroluminescent efficiencies (μ c ‐ 3.10 cd/A; μ p ‐ 3.94 lm/w and μ ex ‐ 4.05%). Compared to our previous results, the para‐linked TPA–MPPPI based device show higher efficiencies with low turn‐on voltages because of the rigid phenanthro[9,10–d]–imidazole plane of para‐linked TPA–MPPPI. The inferior performance of the MPPPI device probably derive from the close packing of the MPPPI molecules in the light‐emitting layer and the strong intermolecular interactions at the interfaces, as a result of the planar structure of MPPPI.…”

Section: Resultscontrasting

confidence: 87%

Hybridised-Local and Charge-Transfer Excited States in Donor-Spacer-Acceptor Molecules for Efficient OLEDs: Combined Experimental and Theoretical Study

2017

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Donor‐spacer‐acceptor (D‐π‐A) architecture consists of triphenylamine (TPA) and phenanthrimidazole (MPPPI) namely, para‐linked pTPA‐MPPPI and meta‐linked mTPA‐MPPPI was designed and synthesized using phenyl as spacer. The photophysical and electroluminescent behaviour of these two isomers were comparatively investigated. These compounds exhibit excellent thermal stabilities, decomposition temperature, Td ‐ 426°C (mTPA‐MPPPI); Td ‐ 432 °C (pTPA‐MPPPI) with high glass transition temperature, Tg ‐ 124°C (mTPA‐MPPPI); Tg ‐ 115°C (pTPA‐MPPPI). Meta linked mTPA‐MPPPI isomer exhibit NUV emission compared to para linked isomer, however, with the loss of efficiency. Theoretical calculation and photophysical experiments have been implemented to verify the excited state properties of pTPA‐MPPPI and mTPA‐MPPPI and indicates that these twisting D‐π‐A molecules exhibit a hybridised local and charge transfer (HLCT) excited state. The mTPA‐MPPPI based device exhibit EL emission at 407 nm with FWHM of 42 nm corresponding to CIE coordinates of (0.16, 0.087) whereas the pTPA‐MPPPI device exhibit higher electroluminescent efficiencies, ηc = 3.10 cd A‐1, ηp = 3.94 lm W‐1 and ηex = 4.05 %.

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Section: Resultscontrasting

confidence: 87%

Hybridised-Local and Charge-Transfer Excited States in Donor-Spacer-Acceptor Molecules for Efficient OLEDs: Combined Experimental and Theoretical Study

2017

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“…Jayabharathi et al 143 synthesized D–π–A materials with HLCT behaviour (TPA-MPI-phenyl spacer/TPA-MPS-styryl spacer), which exhibited excellent optical properties [ λ abs s,f : 396, 398/391, 392 nm; PL s,f : 466, 468/445, 446 nm; PLQY s,f : 70, 70/75, 75%; τ : 2.61/2.53 ns; T m , T g , T d : 281, 130, 442/298, 139, 451 °C; and HOMO, LUMO: 5.04, 2.31/5.25, 2.60 eV, respectively]. Due to the longer conjugation length, the π–π* transitions led to a higher extinction coefficient, enabling a reduction in the film thickness.…”

Section: Triplet–triplet Annihilationmentioning

confidence: 99%

Robust luminogens as cutting-edge tools for efficient light emission in recent decades

Jayabharathi,

Thanikachalam

2024

Phys. Chem. Chem. Phys.

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“…The styryl spacer containing the TPA-MPS device exhibited the current efficiency at 1.73 cd/A, power efficiency (PE) at 1.46 lm/W, and provided 2.11 % EQE with 4.6 V. Both the reported emitters TPA-MPI and TPA-MPS (Figure 18) acted as a potential blue candidate for OLEDs. 45 Although there have been many metal-based complexes, Urinda et al synthesized Ir (II)-based N^N and C^N complexes (Figure 19). They aimed to provide different types of molecules which can have excellent relative effectiveness.…”

Section: Progress Of Blue Light Emitters In Indiamentioning

confidence: 99%

“…46 As per the literature survey, the blue OLED device started with only 15.8 % EQE in 2012 and reached to a record high EQE of almost 27.2 % in 2016. The EQE and wavelength for the reported blue emitter are shown below in Table 3 [30][31][32][33][34][35][36][37][38][39][40][41][42][43][44][45][46] from the year 2010 to 2016.…”

Section: Progress Of Blue Light Emitters In Indiamentioning

confidence: 99%

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A Review on the Milestones of Blue Light-Emitting Materials in India

et al. 2023

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Since 1987 in the field of optoelectronics, organic light-emitting diodes (OLEDs) have secured their position because of their extreme use in panels of lighting applications such as TV and smartphone displays. At present, OLEDs are at top-notch position in the lighting market for their promising features. The field of OLEDs is rapidly growing day by day in academia and industry due to the success of OLEDs in the form of excellent efficiency, feasible methods, excellent lifetime, color purity, and superb device architecture. As a result, OLEDs are new profitable leading devices of the 21st century. However, the OLED industry has evolved in optoelectronics in the last 30 years and is advancing rapidly just because of the development in OLED materials (fluorescent, phosphorescent, thermally activated delayed fluorescent, and blue light-emitting materials). Blue light-emitting materials have achieved incredible popularity nationally and internationally. At the international level, USA, Japan, Korea, and Germany are at the top of the list in the production of OLEDs. India has also seen rapid progress in OLED development in the last 12 years and details of research in blue OLEDs by key players of India are involved in this report.1 Introduction1.1 OLED Construction1.2 Working of OLED2 OLED Development2.1 Historical Background of OLED2.1.1 International Status2.1.2 National Status3 Progress of Blue Emitters in India4 Present Scenario of Blue OLEDs5 Conclusions and Outlook

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Nondoped Blue Organic Light Emitting Devices with Donor−π–Acceptor Derivatives as the Emissive Material

Cited by 10 publications

References 48 publications

Hybridised-Local and Charge-Transfer Excited States in Donor-Spacer-Acceptor Molecules for Efficient OLEDs: Combined Experimental and Theoretical Study

Hybridised-Local and Charge-Transfer Excited States in Donor-Spacer-Acceptor Molecules for Efficient OLEDs: Combined Experimental and Theoretical Study

Robust luminogens as cutting-edge tools for efficient light emission in recent decades

A Review on the Milestones of Blue Light-Emitting Materials in India

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