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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 116, 2018 - Issue 17
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Research Articles

A combined theoretical and experimental study of the ultrafast photophysics of Rhodamine B

Daniele CatoneIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
,
Patrick O’KeeffeIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0002-8676-4436View further author information
ORCID Icon,
Mauro SattaCNR-ISMN, Dipartimento di Chimica, University of Rome Sapienza, Rome, ItalyView further author information
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Alessandra PaladiniIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
,
Alessandra CiavardiniIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
,
Francesco ToschiIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
,
Stefano TurchiniIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
&
Lorenzo AvaldiIstituto di Struttura della Materia-CNR (ISM-CNR), Division of Ultrafast Processes in Materials (FLASHit), Rome, ItalyView further author information
 show all
Pages 2162-2171 | Received 27 Nov 2017, Accepted 28 Mar 2018, Published online: 27 Apr 2018
 
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ABSTRACT

The ultrafast dynamics of zwitterionic and cationic Rhodamine B in ethanol have been investigated using TDDFT calculations and ultrafast transient absorption spectroscopy. The calculations show that the zwitterionic form exhibits an electronically excited dark state which could potentially quench the initially photoexcited state, while in the case of cationic form the lowest excited lying dark state is outside the energy region of interest and cannot explain its quenching. Due to similarities in the relaxation dynamics of the two molecules, it is suggested that the electronically excited dark state may not play such an important role in the quenching process of this dye as previously proposed. Experimental evidence presented suggests that a quenching mechanism is active on the picosecond timescale for both forms of Rhodamine B.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

DC, PO'K and ST acknowledge funding from the MIUR under PRIN grant number 2015CL3APH.

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