Artículo
Electronic Delocalization, Vibrational Dynamics, and Energy Transfer in Organic Chromophores
Fecha de publicación:
06/2017
Editorial:
American Chemical Society
Revista:
The Journal of Physical Chemistry Letters
ISSN:
1948-7185
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
The efficiency of materials developed for solar energy and technological applications depends on the interplay between molecular architecture and light-induced electronic energy redistribution. The spatial localization of electronic excitations is very sensitive to molecular distortions. Vibrational nuclear motions can couple to electronic dynamics driving changes in localization. The electronic energy transfer among multiple chromophores arises from several distinct mechanisms that can give rise to experimentally measured signals. Atomistic simulations of coupled electron-vibrational dynamics can help uncover the nuclear motions directing energy flow. Through careful analysis of excited state wave function evolution and a useful fragmenting of multichromophore systems, through-bond transport and exciton hopping (through-space) mechanisms can be distinguished. Such insights are crucial in the interpretation of fluorescence anisotropy measurements and can aid materials design. This Perspective highlights the interconnected vibrational and electronic motions at the foundation of nonadiabatic dynamics where nuclear motions, including torsional rotations and bond vibrations, drive electronic transitions.
Palabras clave:
Nonadiabatic Dynamics
,
Excited States
,
Conjugated Molecules
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Licencia
Identificadores
Colecciones
Articulos(SEDE CENTRAL)
Articulos de SEDE CENTRAL
Articulos de SEDE CENTRAL
Citación
Nelson, Tammie; Fernández Alberti, Sebastián; Roitberg, Adrián; Tretiak, Sergei; Electronic Delocalization, Vibrational Dynamics, and Energy Transfer in Organic Chromophores; American Chemical Society; The Journal of Physical Chemistry Letters; 8; 13; 6-2017; 3020-3031
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