Organic Light-Emitting Diodes. 4,4′,4”-Tris[(3-methylphenyl)phenylamino]triphenylamine Papers list
1. Wang, G.; Yin, M.; Miao, Y.; Guo, Y.; Zhou, H.; Lu, Q.; Huang, J.; Wang, H., Combining intrinsic (blue) and exciplex (green and orange-red) emissions of the same material (OCT) in white organic light-emitting diodes to realize high color quality with a CRI of 97. Journal of Materials Chemistry C: Materials for Optical and Electronic Devices 2022, 10 (17), 6654-6664.
2. Saghaei, J.; Russell, S. M.; Jin, H.; Burn, P. L.; Pivrikas, A.; Shaw, P. E., Rivers of Light-Ternary Exciplex Blends for High Efficiency Solution-Processed Red Phosphorescent Organic Light Emitting Diodes. Advanced Functional Materials 2022, 32 (8), 2108128.
3. Nasiri, S.; Hosseinnezhad, M.; Rabiei, M.; Palevicius, A.; Rahimi, Z.; Janusas, G.; Vilkauskas, A., New approach of mechanochromic, thermally activated delayed fluorescence′ dyes consisting of “thioxanthenone derivative as an acceptor unit and two carbazole derivatives as the donor units” used as emitting layer in organic light-emitting diodes. Opt. Mater. (Amsterdam, Neth.) 2022, 127, 112320.
4. Thakur, D.; Dubey, D. K.; Kumar Yadav, R. A.; Banik, S.; Jayakumar, J.; Cheng, C.-H.; Jou, J.-H.; Ghosh, S., Configuring device architecture with new solution-processable host for high performance low color-temperature OLEDs with ultra-low driving voltage. Organic Electronics 2021, 93, 106127.
5. Singh, K.; Siddiqui, I.; Sridharan, V.; Kumar Yadav, R. A.; Jou, J.-H.; Adhikari, D., Aggregation-Induced Enhanced Emission-Active Zinc(II) β-Diketiminate Complexes Enabling High-Performance Solution-Processable OLEDs. Inorganic Chemistry 2021, 60 (24), 19128-19135.
6. Saghaei, J.; Leitner, T.; Mai, V. T. N.; Ranasinghe, C. S. K.; Burn, P. L.; Gentle, I. R.; Pivrikas, A.; Shaw, P. E., Emissive Material Optimization for Solution-Processed Exciplex OLEDs. ACS Appl. Electron. Mater. 2021, 3 (11), 4757-4767.
7. Ligthart, A.; Nevels, T. D. G.; Weijtens, C. H. L.; Bobbert, P. A.; Coehoorn, R., Mechanistic description of the efficiency loss in organic phosphorescent host-guest systems due to triplet-polaron quenching. Organic Electronics 2021, 91, 106058.
8. Chang, N.-C.; Tsai, C.-T.; Huang, W.-L.; Chu, S.-Y.; Kao, P.-C., Investigation of the impact and mechanisms of changes in the process evaporation rate in high efficiency exciplex-based OLEDs. J. Alloys Compd. 2021, 854, 157127.
9. Chang, N.-C.; Chu, S.-Y.; Kao, P.-C.; Tsai, C.-T.; Huang, W.-L., Process optimization and investigation of exciton movement in high efficiency exciplex-based green organic light-emitting diodes. Thin Solid Films 2021, 717, 138418.
10. Chulkin, P.; Lapkowski, M.; Bryce, M. R.; Santos, J.; Data, P., Determination of standard redox rate constants of OLED active compounds by electrochemical impedance spectroscopy. Electrochimica Acta 2017, 258, 1160-1172.
11. Liao, Y.-L.; Hung, W.-Y.; Hou, T.-H.; Lin, C.-Y.; Wong, K.-T., Hole Mobilities of 2,7- and 2,2′-Disubstituted 9,9′-Spirobifluorene-Based Triaryldiamines and Their Application as Hole Transport Materials in OLEDs. Chem. Mater. FIELD Full Journal Title:Chemistry of Materials 2007, 19 (25), 6350-6357.
12. Etori, H.; Yasuda, T.; Jin, X. L.; Fujita, K.; Mataka, S.; Tsutsui, T., Design of multilayer structure for UV organic light-emitting diodes based on 2-(2-naphthyl)-9,9′-spirobifluorene. Japanese Journal of Applied Physics, Part 1: Regular Papers, Brief Communications & Review Papers 2007, 46 (8A), 5071-5075.
13. Shirota, Y.; Okumoto, K.; Inada, H., Thermally stable organic light-emitting diodes using new families of hole-transporting amorphous molecular materials. Synth. Met. FIELD Full Journal Title:Synthetic Metals 2000, 111-112, 387-391.
14. Shirota, Y.; Kinoshita, M.; Noda, T.; Okumoto, K.; Ohara, T., A Novel Class of Emitting Amorphous Molecular Materials as Bipolar Radical Formants: 2-{4-[Bis(4-methylphenyl)amino]phenyl}-5-(dimesitylboryl)thiophene and 2-{4-[Bis(9,9-dimethylfluorenyl)amino]phenyl}-5-(dimesitylboryl)thiophene. Journal of the American Chemical Society 2000, 122 (44), 11021-11022.