Title
Probing the Solvation Structure and Dynamics in Ionic Liquids by Time-Resolved Infrared Spectroscopy of 4-(dimethylamino)benzonitrile
Document Type
Article
Publication Date
9-2017
Abstract
In this work we demonstrate the use of the push-pull model system 4-(dimethylamino)benzonitrile (DMABN) as a convenient molecular probe to investigate the local solvation structure and dynamics by means of time-resolved infrared spectroscopy (TRIR). The photochemical features associated with this system provide several advantages due to the high charge separation between the ground and charge transfer states involving the characteristic nitrile bond, and an excited state lifetime that is long enough to observe the slow solvation dynamics in organic solvents and ionic liquids. The conversion from a locally excited state to an intramolecular charge transfer state (LE-ICT) in ionic liquids shows similar kinetic lifetimes in comparison to organic solvents. This similarity confirms that such conversion depends solely on the intramolecular reorganization of DMABN in the excited state, and not by the dynamics of solvation. In contrast, the relative shift of the ν(CN) vibration during the relaxation of the ICT state reveals two distinct lifetimes that are sensitive to the solvent environment. This study reveals a fast time component which is attributed to the dipolar relaxation of the solvent and a slower time component related to the rotation of the dimethylamino group of DMABN.
Version
The work available here is the abstract of the article. Locate the full-text of the article using the DOI below.
Publication Title
Physical Chemistry Chemical Physics
Issue Number
36
Recommended Citation
Ando, R. A.; Brown-Xu, Samantha; Nguyen, L. N. Q.; and Gustafson, T. L., "Probing the Solvation Structure and Dynamics in Ionic Liquids by Time-Resolved Infrared Spectroscopy of 4-(dimethylamino)benzonitrile" (2017). Chemistry Faculty Publications. 1.
https://neiudc.neiu.edu/chem-pub/1