ChemRxiv
These are preliminary reports that have not been peer-reviewed. They should not be regarded as conclusive, guide clinical practice/health-related behavior, or be reported in news media as established information. For more information, please see our FAQs.
Johnson_003_ChemRxiv.pdf (1.39 MB)
0/0

An Ultrafast Vibrational Study of Dynamical Heterogeneity in the Protic Ionic Liquid Ethyl-Ammonium Nitrate

preprint
submitted on 19.09.2019 and posted on 23.09.2019 by Clinton Johnson, Anthony W. Parker, Paul M. Donaldson, Sean Garrett-Roe

Using ultrafast two-dimensional infrared spectroscopy (2D-IR), a vibrational probe (thiocyanate, SCN-) was used to investigate the hydrogen bonding network of a molten salt (ethyl-ammonium nitrate, EAN) compared to that of H2O. The 2D-IR experiments were performed in both parallel () and perpendicular () conditions along with temperature dependence for both EAN (14-130 ˚C) and H2O (5-89 ˚C). With polarization control, the frequency fluctuation correlation function can be separated into structural and rotational components. An Arrhenius analysis lead to independent activation energies for the isotropic, and anisotropic signals, structural spectral diffusion, and rotational induced spectral diffusion. The rotational Eas were similar for both EAN and H2O suggesting that SCN- is experiencing a similar jump model, i.e. where hydrogen bond reorientation is dominated by large angular jumps stemming from molecular rotation dynamics. The frequency pre-factors, however, were different where the more rigid and vicious EAN had a slower rate. Furthermore, the 2D-IR anisotropy and vibrational relaxation rates of EAN are frequency dependent, revealing that SCN- experiences two subensembles. We suggest that the sub-ensemble with a faster rotational timescale correlates to SCN- with more, weaker hydrogen bonds, and the sub-ensemble with a slower rotational timescale correlates to SCN- with a stronger, more directional hydrogen bond.

History

Email Address of Submitting Author

caj52@pitt.edu

Institution

University of Pittsburgh

Country

United States

ORCID For Submitting Author

0000-0002-4141-9495

Declaration of Conflict of Interest

no conflict of interest

Exports