Journal article
Quantifying the Relaxation Dynamics of Higher Electronic Excited States in Perylene.
Rohan J Hudson, Anjay Manian, Christopher R Hall, Timothy W Schmidt, Salvy P Russo, Kenneth P Ghiggino, Trevor A Smith
Journal of Physical Chemistry Letters | American Chemical Society | Published : 2023
Abstract
Gating logical operations through high-lying electronic excited states presents opportunities for developing ultrafast, subnanometer computational devices. A lack of molecular systems with sufficiently long-lived higher excited states has hindered practical realization of such devices, but recent studies have reported intriguing photophysics from high-lying excited states of perylene. In this work, we use femtosecond spectroscopy supported by quantum chemical calculations to identify and quantify the relaxation dynamics of monomeric perylene's higher electronic excited states. The 21B2u state is accessed through single-photon absorption at 250 nm, while the optically dark 21Ag state is excit..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
This work was supported by the Australian Research Council (ARC) Centre of Excellence in Exciton Science (CE170100026) and the ARC Linkage Infrastructure, Equipment and Facilities Scheme (LE200100051). This work was also supported by computational resources provided by the Australian Government through the National Computational Infrastructure National Facility and the Pawsay Supercomputer Centre. R.J.H. would also like to thank Dr. Nina Novikova for technical support.