Lasing Operation under Long-Pulse Excitation in Solution-Processed Organic Gain Medium: Toward CW Lasing in Organic Semiconductors

Van T.N. Mai, Atul Shukla, A. M.Chathuranganie Senevirathne, Ilene Allison, Hyunsoo Lim, Romain J. Lepage, Sarah K.M. McGregor, Michael Wood, Toshinori Matsushima, Evan G. Moore, Elizabeth H. Krenske, Atula S.D. Sandanayaka, Chihaya Adachi, Ebinazar B. Namdas, Shih Chun Lo

研究成果: Contribution to journalArticle査読

抄録

High mechanical flexibility and wavelength tunability of organic semiconductor materials have propelled the development of organic semiconductor lasers (OSLs) as a complementary technology to current inorganic lasers. While excellent progress has been made across multiple aspects of OSLs, demonstration of long-pulse operation [quasi-continuous wave (qCW) or continuous wave (CW)] lasing has presented significant challenges due to the detrimental accumulation of triplets under long-pulse photoexcitation and substantial quenching of singlet excitons, arising from singlet-triplet annihilation (STA). In particular, qCW or CW lasing from solution-processed OSL materials has not been reported, and thus remains a long-thought objective in optoelectronic research. Using a novel bis(N-carbazolylstyryl)-9,9-dihexylfluorene (BSFCz), the first solution-processable organic laser dye demonstrating lasing oscillation in the long-pulse photoexcitation regime (up to 10 ms pulse width) with a low threshold (420 W cm−2), which in part can be attributed to its negligible spectral overlap between triplet excited-state absorption and laser emission, is herein reported. Temporal emission profiles below and above the lasing threshold also demonstrate that STA has a negligible effect on emission. These combined observations show BSFCz incur low losses due to triplet excited-states, leading to extremely small changes in lasing thresholds when moving from pulsed to qCW (>1 ms) excitation.

本文言語英語
論文番号2001234
ジャーナルAdvanced Optical Materials
8
21
DOI
出版ステータス出版済み - 11 1 2020

All Science Journal Classification (ASJC) codes

  • Electronic, Optical and Magnetic Materials
  • Atomic and Molecular Physics, and Optics

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