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The Importance of Solid-state Molecular Motion to Room Temperature Phosphorescence.pdf (2.45 MB)

The Importance of Solid-state Molecular Motion to Room Temperature Phosphorescence

preprint
revised on 20.09.2020 and posted on 21.09.2020 by Yujie Tu, Junkai Liu, Xuepeng Zhang, Tsz Shing Cheung, Xuewen He, Jing Guo, Jacky W. Y. Lam, Sijie Chen, Ben Zhong Tang
Molecular motion is often considered detrimental to luminescence because it favors nonradiative decay. However, nothing is absolute, and molecular motion can also do useful work if utilized properly. For example, photothermal therapy makes use of the heat generated in light irradiation for cancer treatment. To further explore the merits of molecular motion, ortho-substituted benzoic acids were used as model compounds to evaluate the importance of molecular motion to luminescence in the solid state. It is verified that the twisting of the carboxylic acid group can activate spin vibronic coupling to facilitate intersystem crossing to result in more efficient room temperature phosphorescence (RTP). A five-state model is established to understand the ISC process and an effective pre-twisted molecular design strategy is put forward for the development of efficient RTP materials.

History

Email Address of Submitting Author

ytuaa@connect.ust.hk

Institution

Hong Kong University of Science and Technology

Country

China

ORCID For Submitting Author

0000-0001-7950-0419

Declaration of Conflict of Interest

The authors declare no conflict of interest.

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