Guardado en:
Detalles Bibliográficos
Autores principales: Garg, Pallavi, Singh, Jaibir, Gaur, Ankit Kumar, Venkataramani, Sugumar, Schäfer, Christian, George, Jino
Formato: Preprint
Publicado: 2025
Materias:
Acceso en línea:https://arxiv.org/abs/2503.12097
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
_version_ 1866912276959723520
author Garg, Pallavi
Singh, Jaibir
Gaur, Ankit Kumar
Venkataramani, Sugumar
Schäfer, Christian
George, Jino
author_facet Garg, Pallavi
Singh, Jaibir
Gaur, Ankit Kumar
Venkataramani, Sugumar
Schäfer, Christian
George, Jino
contents Strong light-matter interactions are gaining importance in controlling the photoswitching behavior of molecules exhibiting bistability. Here, we used the strategy of electronic strong coupling of both the E and Z-isomers of azopyrrole photoswitches to a single cavity mode, thereby tuning the conditions from strong to weak coupling in an on-the-go photoisomerization process. This allows in situ monitoring of apparent rates of forward and backward reactions. Very interestingly, the kinetics follow a non-linear trend with a sharp switch in the kinetic slope at the intermediate coupling regime. At this condition, pumping at the upper polaritonic state and the uncoupled population shows an acceleration of the photoisomerization process mediated by the dark state manifold. On the other hand, an opposite effect is observed while exciting the lower polaritonic state. Performing the same experiment in the ultra-strong coupling regime shows no dynamic change over time but further emphasizes the outstanding role of the lower polaritonic states. Our experimental and theoretical findings underline the importance of collective strong coupling in tailoring energy transfer to control photoisomerization dynamically.
format Preprint
id arxiv_https___arxiv_org_abs_2503_12097
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Role of Dark States on Azopyrrole Photoisomerization Reaction by Varying the Coupling Strength of Light-Matter Interaction
Garg, Pallavi
Singh, Jaibir
Gaur, Ankit Kumar
Venkataramani, Sugumar
Schäfer, Christian
George, Jino
Chemical Physics
Strong light-matter interactions are gaining importance in controlling the photoswitching behavior of molecules exhibiting bistability. Here, we used the strategy of electronic strong coupling of both the E and Z-isomers of azopyrrole photoswitches to a single cavity mode, thereby tuning the conditions from strong to weak coupling in an on-the-go photoisomerization process. This allows in situ monitoring of apparent rates of forward and backward reactions. Very interestingly, the kinetics follow a non-linear trend with a sharp switch in the kinetic slope at the intermediate coupling regime. At this condition, pumping at the upper polaritonic state and the uncoupled population shows an acceleration of the photoisomerization process mediated by the dark state manifold. On the other hand, an opposite effect is observed while exciting the lower polaritonic state. Performing the same experiment in the ultra-strong coupling regime shows no dynamic change over time but further emphasizes the outstanding role of the lower polaritonic states. Our experimental and theoretical findings underline the importance of collective strong coupling in tailoring energy transfer to control photoisomerization dynamically.
title The Role of Dark States on Azopyrrole Photoisomerization Reaction by Varying the Coupling Strength of Light-Matter Interaction
topic Chemical Physics
url https://arxiv.org/abs/2503.12097