The ability of aqueous salt solutions to form hydrates by cooling them at ambient pressure is probed by infrared (IR) spectroscopy by examining the structure of the spectra in the hydrogen-bonding region (3,000 - 3,800 cm-1). A collection of 75 organic and inorganic salts in saturated solutions are examined. We have found a correlation between the enthalpy of solution of the salt and its ability to form a hydrate, namely that the salt’s enthalpy of solution is lower than the standard enthalpy of fusion of ice (6 kJ/mol). This observation can serve as an empirical rule that determines whether a salt will form a hydrate upon cooling from its aqueous solution.
Revised: October 12, 2010 |
Published: September 30, 2010
Citation
Pandelov S., J.C. Werhahn, B.M. Pilles, S.S. Xantheas, and H. Iglev. 2010.An empirical correlation between the enthalpy of solution of aqueous salts and their ability to form hydrates.Journal of Physical Chemistry A 114, no. 38:10454-10457.PNNL-SA-73993.doi:10.1021/jp106050r