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2024 Journal Article End Cap Effect on Solution-Processable Deep Blue Lasing Materials with Low-Amplified Spontaneous Emission ThresholdsSugai, Yoshiki, Rahane, Vijay P., Gale, Innes, Verdi, Carla, Ireland, Alexander R., Canola, Sofia, McGregor, Sarah K. M., Moore, Evan G., Jain, Nidhi, Namdas, Ebinazar B. and Lo, Shih-Chun (2024). End Cap Effect on Solution-Processable Deep Blue Lasing Materials with Low-Amplified Spontaneous Emission Thresholds. ACS Applied Materials & Interfaces, 16 (35), 46506-46515. doi: 10.1021/acsami.4c07286 |
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2023 Journal Article Large area inkjet-printed OLED fabrication with solution-processed TADF inkKant, Chandra, Shukla, Atul, McGregor, Sarah K. M., Lo, Shih-Chun, Namdas, Ebinazar B. and Katiyar, Monica (2023). Large area inkjet-printed OLED fabrication with solution-processed TADF ink. Nature Communications, 14 (1) 7220, 1-10. doi: 10.1038/s41467-023-43014-7 |
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2022 Journal Article Amplified spontaneous emission from zwitterionic excited-state intramolecular proton transferShukla, Atul, Mai, Van Thi Ngoc, Divya, Velayudhan V., Suresh, Cherumuttathu H., Paul, Megha, Karunakaran, Venugopal, McGregor, Sarah Katariina Martikainen, Allison, Ilene, Narayanan Unni, K. N., Ajayaghosh, Ayyappanpillai, Namdas, Ebinazar B. and Lo, Shih-Chun (2022). Amplified spontaneous emission from zwitterionic excited-state intramolecular proton transfer. Journal of the American Chemical Society, 144 (30), 13499-13510. doi: 10.1021/jacs.2c02163 |
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2022 Journal Article Probing polaron-induced exciton quenching in TADF based organic light-emitting diodesHasan, Monirul, Saggar, Siddhartha, Shukla, Atul, Bencheikh, Fatima, Sobus, Jan, McGregor, Sarah K. M., Adachi, Chihaya, Lo, Shih-Chun and Namdas, Ebinazar B. (2022). Probing polaron-induced exciton quenching in TADF based organic light-emitting diodes. Nature Communications, 13 (1) 254, 254. doi: 10.1038/s41467-021-27739-x |
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2020 Journal Article Solid cyclooctatetraene-based triplet quencher demonstrating excellent suppression of singlet–triplet annihilation in optical and electrical excitationMai, Van T. N., Ahmad, Viqar, Mamada, Masashi, Fukunaga, Toshiya, Shukla, Atul, Sobus, Jan, Krishnan, Gowri, Moore, Evan G., Andersson, Gunther G., Adachi, Chihaya, Namdas, Ebinazar B. and Lo, Shih-Chun (2020). Solid cyclooctatetraene-based triplet quencher demonstrating excellent suppression of singlet–triplet annihilation in optical and electrical excitation. Nature Communications, 11 (1) 5623, 1-9. doi: 10.1038/s41467-020-19443-z |
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2020 Journal Article Lasing operation under long-pulse excitation in solution-processed organic gain medium: toward CW lasing in organic semiconductorsMai, Van T. N., Shukla, Atul, Senevirathne, A. M. Chathuranganie, Allison, Ilene, Lim, Hyunsoo, Lepage, Romain J., McGregor, Sarah K. M., Wood, Michael, Matsushima, Toshinori, Moore, Evan G., Krenske, Elizabeth H., Sandanayaka, Atula S. D., Adachi, Chihaya, Namdas, Ebinazar B. and Lo, Shih-Chun (2020). Lasing operation under long-pulse excitation in solution-processed organic gain medium: toward CW lasing in organic semiconductors. Advanced Optical Materials, 8 (21) 2001234, 2001234. doi: 10.1002/adom.202001234 |
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2020 Journal Article Charge and exciton dynamics of OLEDs under high voltage nanosecond pulse: towards injection lasingAhmad, Viqar, Sobus, Jan, Greenberg, Mitchell, Shukla, Atul, Philippa, Bronson, Pivrikas, Almantas, Vamvounis, George, White, Ronald, Lo, Shih-Chun and Namdas, Ebinazar B. (2020). Charge and exciton dynamics of OLEDs under high voltage nanosecond pulse: towards injection lasing. Nature Communications, 11 (1) 4310, 4310. doi: 10.1038/s41467-020-18094-4 |
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2019 Journal Article Deep‐red lasing and amplified spontaneous emission from nature inspired bay‐annulated indigo derivativesShukla, Atul, Wallwork, Nicholle R., Li, Xin, Sobus, Jan, Mai, Van T. N., McGregor, Sarah K. M., Chen, Kay, Lepage, Romain J., Krenske, Elizabeth H., Moore, Evan G., Namdas, Ebinazar B. and Lo, Shih‐Chun (2019). Deep‐red lasing and amplified spontaneous emission from nature inspired bay‐annulated indigo derivatives. Advanced Optical Materials, 8 (2) 1901350, 1901350. doi: 10.1002/adom.201901350 |
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2015 Journal Article High-performance, fullerene-free organic photodiodes based on a solution-processable indigoKim, Il Ku, Li, Xin, Ullah, Mujeeb, Shaw, Paul E., Wawrzinek, Robert, Namdas, Ebinazar B. and Lo, Shih-Chun (2015). High-performance, fullerene-free organic photodiodes based on a solution-processable indigo. Advanced Materals, 27 (41), 6390-6395. doi: 10.1002/adma.201502936 |
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2007 Journal Article Development of Dendrimers: Macromolecules for Use in Organic Light-Emitting Diodes and Solar CellsLo, Shih-Chun and Burn, Paul L. (2007). Development of Dendrimers: Macromolecules for Use in Organic Light-Emitting Diodes and Solar Cells. Chemical Reviews, 107 (4), 1097-1116. doi: 10.1021/cr050136l |
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2006 Journal Article Blue phosphorescence from iridium(III) complexes at room temperatureLo, S. C., Shipley, C. P., Bera, R. N., Harding, R. E., Cowley, A. R., Burn, P. L. and Samuel, I. D. W. (2006). Blue phosphorescence from iridium(III) complexes at room temperature. Chemistry of Materials, 18 (21), 5119-5129. doi: 10.1021/cm061173b |
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2025 Journal Article MoSe2/P3HT hybrid heterostructure field‐effect‐transistor for photodetectionKhanikar, Prabal Dweep, Sandhu, Harmanpreet Kaur, Sharma, Sumit, Lo, Shih‐Chun, Namdas, Ebinazar B. and Das, Samaresh (2025). MoSe2/P3HT hybrid heterostructure field‐effect‐transistor for photodetection. Advanced Materials Technologies, 10 (6). doi: 10.1002/admt.202401157 |
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2024 Journal Article NEXAFS spectroscopy of alkylated benzothienobenzothiophene thin films at the carbon and sulfur K-edgesChantler, Paul Alexander, Thomsen, Lars, Roychoudhury, Subhayan, Glover, Chris J., Mitchell, Valerie, McGregor, Sarah K. M., Lo, Shih-Chun, Namdas, Ebinazar B., Prendergast, David and McNeill, Christopher R. (2024). NEXAFS spectroscopy of alkylated benzothienobenzothiophene thin films at the carbon and sulfur K-edges. The Journal of Chemical Physics, 161 (18) 184308. doi: 10.1063/5.0231117 |
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2024 Journal Article A New Organic Laser Material Design Toward Ultra‐Low Amplified Spontaneous Red Emission and Ultra‐Bright ElectroluminescenceWallwork, Nicholle R., Shukla, Atul, Roseli, Ras Baizureen, Allison, Ilene, McGregor, Sarah K. M., Coles, Max, Gale, Innes, Rahane, Vijay P., Entoma, Volter, Moore, Evan G., Krenske, Elizabeth H., Namdas, Ebinazar B. and Lo, Shih‐Chun (2024). A New Organic Laser Material Design Toward Ultra‐Low Amplified Spontaneous Red Emission and Ultra‐Bright Electroluminescence. Small, 20 (52) 2406817, e2406817. doi: 10.1002/smll.202406817 |
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2024 Journal Article Highly Stable Red Emissive Organic Semiconductor Materials with Low Amplified Spontaneous Emission ThresholdsRahane, Vijay P., Roseli, Ras Baizureen, Ireland, Alexander R., Gale, Innes, Shukla, Atul, Moore, Evan G., Krenske, Elizabeth H., Namdas, Ebinazar B., Jain, Nidhi and Lo, Shih‐Chun (2024). Highly Stable Red Emissive Organic Semiconductor Materials with Low Amplified Spontaneous Emission Thresholds. Advanced Optical Materials, 12 (25) 2400892. doi: 10.1002/adom.202400892 |
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2024 Journal Article Low amplified spontaneous emission threshold from solution processable excited‐state intramolecular proton transfer chromophoresRahane, Vijay P., Shukla, Atul, Roseli, Ras Baizureen, Ireland, Alexander R., Gale, Innes, Krenske, Elizabeth H., Moore, Evan G., Namdas, Ebinazar B., Jain, Nidhi and Lo, Shih‐Chun (2024). Low amplified spontaneous emission threshold from solution processable excited‐state intramolecular proton transfer chromophores. Advanced Optical Materials, 12 (24). doi: 10.1002/adom.202400840 |
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2024 Journal Article Management and utilization of triplet excitons in organic optoelectronic devicesGao, Can, Miao, Zhagen, Wong, Wallace W. H., Smith, Trevor A., Lo, Shih-Chun, Hu, Wenping, Namdas, Ebinazar B. and Dong, Huanli (2024). Management and utilization of triplet excitons in organic optoelectronic devices. Fundamental Research. doi: 10.1016/j.fmre.2024.05.009 |
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2024 Journal Article Response Speed of Organic Photodiodes as a Function of Incident Optical IntensitySaggar, Siddhartha, Mahmood, Asad, Nayak, Nagaraj, Kumar, Anil, Andersson, Mats R., Philippa, Bronson, Lo, Shih‐Chun and Namdas, Ebinazar B. (2024). Response Speed of Organic Photodiodes as a Function of Incident Optical Intensity. Advanced Optical Materials, 12 (16) 2302916, 1-9. doi: 10.1002/adom.202302916 |
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2024 Journal Article Narrow Band Organic Photodiode with Photoresponse at 808 nm for PhotoplethysmographySaggar, Siddhartha, Shukla, Atul, Lo, Shih‐Chun and Namdas, Ebinazar B. (2024). Narrow Band Organic Photodiode with Photoresponse at 808 nm for Photoplethysmography. Advanced Photonics Research, 5 (10), 1-6. doi: 10.1002/adpr.202400003 |
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2024 Other Outputs Triplet quenchingMai, Van T. N., Lo, Shih-Chun, Ahmad, Viqar, Sobus, Jan and Namdas, Ebinazar B. (2024). Triplet quenching. US20240008358A1. |
