期刊
NATURE COMMUNICATIONS
卷 12, 期 1, 页码 -出版社
NATURE RESEARCH
DOI: 10.1038/s41467-021-21571-z
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资金
- National Key R&D Program of China [2016YFA0200600, 2017YFA0303500]
- National Natural Science Foundation of China
- Strategic Priority Research Program of Chinese Academy of Sciences [XDB36000000]
- Anhui Initiative in Quantum Information Technologies
- Excellent Young Scientist Foundation of the National Natural Science Foundation of China
Vibronic coupling within a single pentacene molecule was investigated through imaging the spatial distribution of single-molecule electroluminescence, revealing its importance in electronic transitions. The effect of different vibronic coupling modes on electron distributions in real space was resolved using scanning tunneling microscopy induced luminescence.
Vibronic coupling is a central issue in molecular spectroscopy. Here we investigate vibronic coupling within a single pentacene molecule in real space by imaging the spatial distribution of single-molecule electroluminescence via highly localized excitation of tunneling electrons in a controlled plasmonic junction. The observed two-spot orientation for certain vibronic-state imaging is found to be evidently different from the purely electronic 0-0 transition, rotated by 90 degrees, which reflects the change in the transition dipole orientation from along the molecular short axis to the long axis. Such a change reveals the occurrence of strong vibronic coupling associated with a large Herzberg-Teller contribution, going beyond the conventional Franck-Condon picture. The emergence of large vibration-induced transition charges oscillating along the long axis is found to originate from the strong dynamic perturbation of the anti-symmetric vibration on those carbon atoms with large transition density populations during electronic transitions. Vibronic coupling is a key feature of molecular electronic transitions, but its visualization in real space is an experimental challenge. Here the authors, using scanning tunneling microscopy induced luminescence, resolve the effect of vibronic coupling with different modes on the electron distributions in real space in a single pentacene molecule.
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