posted on 2016-02-17, 00:00authored byJosé
N. Canongia Lopes, José M. S. S. Esperança, André
Mão de Ferro, Ana B. Pereiro, Natalia V. Plechkova, Luis P. N. Rebelo, Kenneth R. Seddon, Isabel Vázquez-Fernández
This
study is centered on the thermophysical characterization of
different families of alkylammonium nitrate ionic liquids and their
binary mixtures, namely the determination at atmospheric pressure
of densities, electric conductivities and viscosities in the 288.15
< T/K < 353.15 range. First, measurements focusing
on ethylammonium, propylammonium and butylammonium nitrate systems,
and their binary mixtures, were determined. These were followed by
studies involving binary mixtures composed of ethylammonium nitrate
(with three hydrogen bond donor groups) and different homologous ionic
liquids with differing numbers of hydrogen bond donor groups: diethylammonium
nitrate (two hydrogen bond donors), triethylammonium nitrate (one
hydrogen bond donor) and tetraethylammonium nitrate (no hydrogen bond
donors). Finally, the behavior of mixtures with different numbers
of equivalent carbon atoms in the alkylammonium cations was analyzed.
The results show a quasi-ideal behavior for all monoalkylammonium
nitrate mixtures. In contrast, the other mixtures show deviations
from ideality, namely when the difference in the number of carbon
atoms present in the cations increases or the number of hydrogen bond
donors present in the cation decreases. Overall, the results clearly
show that, besides the length and distribution of alkyl chains present
in a cation such as alkylammonium, there are other structural and
interaction parameters that influence the thermophysical properties
of both pure compounds and their mixtures.