Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN

S. Murali; P. Changenet-Barret; C. Ley; P. Plaza; W. Rettig; M. M. Martin; A. I. Tolmachev

doi:10.1016/B978-044451656-5/50067-0

Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN

S. Murali
, P. Changenet-Barret
, C. Ley
, P. Plaza
, W. Rettig
, M. M. Martin
, A. I. Tolmachev

PSL Research University
Institute for Organic Chemistry of the National Academy of Sciences of Ukraine

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Chapitre › Revue par des pairs

Résumé

Dimethylaminobenzonitrile (DMABN) is the prototype system of molecules that form a Twisted Intramolecular Charge Transfer (TICT) state after optical excitation. TICT states are revealed by their often considerably, solvent-polarity-induced, red-shifted emission with mostly forbidden character due to the twisted conformation of the emitting species. The energetics of TICT states are governed by the donor and acceptor strengths of the moieties on both sides of the twisted bond. In principle, with sufficiently strong donors and acceptors, the TICT state energy can be lowered very far below that of the spectroscopically relevant state in absorption, that is, the locally excited (LE) state. Fluorine is a strong acceptor, which exerts relatively little sterical hindrance. Its introduction into DMABN is expected to lower the TICT state energy considerably and thus to increase its formation rate. This chapter employs time resolved absorption spectroscopy in order to check the charge transfer nature of the emitting state and tentatively measure its formation rate.

langue originale	Anglais
titre	Femtochemistry and Femtobiology
Sous-titre	Ultrafast Events in Molecular Science VIth International Conference on Femtochemistry Maison de la Chimie, Paris, France July 6-10, 2003
Editeur	Elsevier
Pages	323-326
Nombre de pages	4
ISBN (Electronique)	9780444516565
Les DOIs	https://doi.org/10.1016/B978-044451656-5/50067-0
état	Publié - 1 janv. 2004
Modification externe	Oui

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Murali, S., Changenet-Barret, P., Ley, C., Plaza, P., Rettig, W., Martin, M. M., & Tolmachev, A. I. (2004). Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN. Dans Femtochemistry and Femtobiology: Ultrafast Events in Molecular Science VIth International Conference on Femtochemistry Maison de la Chimie, Paris, France July 6-10, 2003 (p. 323-326). Elsevier. https://doi.org/10.1016/B978-044451656-5/50067-0

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abstract = "Dimethylaminobenzonitrile (DMABN) is the prototype system of molecules that form a Twisted Intramolecular Charge Transfer (TICT) state after optical excitation. TICT states are revealed by their often considerably, solvent-polarity-induced, red-shifted emission with mostly forbidden character due to the twisted conformation of the emitting species. The energetics of TICT states are governed by the donor and acceptor strengths of the moieties on both sides of the twisted bond. In principle, with sufficiently strong donors and acceptors, the TICT state energy can be lowered very far below that of the spectroscopically relevant state in absorption, that is, the locally excited (LE) state. Fluorine is a strong acceptor, which exerts relatively little sterical hindrance. Its introduction into DMABN is expected to lower the TICT state energy considerably and thus to increase its formation rate. This chapter employs time resolved absorption spectroscopy in order to check the charge transfer nature of the emitting state and tentatively measure its formation rate.",

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Murali, S, Changenet-Barret, P, Ley, C, Plaza, P, Rettig, W, Martin, MM & Tolmachev, AI 2004, Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN. Dans Femtochemistry and Femtobiology: Ultrafast Events in Molecular Science VIth International Conference on Femtochemistry Maison de la Chimie, Paris, France July 6-10, 2003. Elsevier, p. 323-326. https://doi.org/10.1016/B978-044451656-5/50067-0

Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN. / Murali, S.; Changenet-Barret, P.; Ley, C. et al.
Femtochemistry and Femtobiology: Ultrafast Events in Molecular Science VIth International Conference on Femtochemistry Maison de la Chimie, Paris, France July 6-10, 2003. Elsevier, 2004. p. 323-326.

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Chapitre › Revue par des pairs

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N2 - Dimethylaminobenzonitrile (DMABN) is the prototype system of molecules that form a Twisted Intramolecular Charge Transfer (TICT) state after optical excitation. TICT states are revealed by their often considerably, solvent-polarity-induced, red-shifted emission with mostly forbidden character due to the twisted conformation of the emitting species. The energetics of TICT states are governed by the donor and acceptor strengths of the moieties on both sides of the twisted bond. In principle, with sufficiently strong donors and acceptors, the TICT state energy can be lowered very far below that of the spectroscopically relevant state in absorption, that is, the locally excited (LE) state. Fluorine is a strong acceptor, which exerts relatively little sterical hindrance. Its introduction into DMABN is expected to lower the TICT state energy considerably and thus to increase its formation rate. This chapter employs time resolved absorption spectroscopy in order to check the charge transfer nature of the emitting state and tentatively measure its formation rate.

AB - Dimethylaminobenzonitrile (DMABN) is the prototype system of molecules that form a Twisted Intramolecular Charge Transfer (TICT) state after optical excitation. TICT states are revealed by their often considerably, solvent-polarity-induced, red-shifted emission with mostly forbidden character due to the twisted conformation of the emitting species. The energetics of TICT states are governed by the donor and acceptor strengths of the moieties on both sides of the twisted bond. In principle, with sufficiently strong donors and acceptors, the TICT state energy can be lowered very far below that of the spectroscopically relevant state in absorption, that is, the locally excited (LE) state. Fluorine is a strong acceptor, which exerts relatively little sterical hindrance. Its introduction into DMABN is expected to lower the TICT state energy considerably and thus to increase its formation rate. This chapter employs time resolved absorption spectroscopy in order to check the charge transfer nature of the emitting state and tentatively measure its formation rate.

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Murali S, Changenet-Barret P, Ley C, Plaza P, Rettig W, Martin MM et al. Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN. Dans Femtochemistry and Femtobiology: Ultrafast Events in Molecular Science VIth International Conference on Femtochemistry Maison de la Chimie, Paris, France July 6-10, 2003. Elsevier. 2004. p. 323-326 doi: 10.1016/B978-044451656-5/50067-0

Ultrafast photoinduced charge transfer in fluorinated derivatives of DMABN

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