Experiments probing the phase and behavior of NaNO3 particles at different relative humidities, important for elucidating the role these play in the chemistry and radiative properties of marine regions, are presented. Changes in NaNO3 particles during hydration were studied using environmental scanning electron mircoscopy (ESEM) and conventional SEM coupled with energy dispersive X-ray analysis (SEM/EDX). Mixtures of NaNO3 and NaCI, which are typical of partially processed sea salt particles, were also studied. Complementary studies using long path FTIR were carried out to determine the extent of water association with NaNO3 aerosols, and for comparison, NaC1, MgC12, and NH4NO3, as a function of relative humidity. The combination of these techniques shows that NaNO3 particles exist as unusual metastable, amorphous solids at low relative humidity that undergo continuous hygroscopic growth with increasing relative humidity. While other evidence for this phenomenon has been reported, this is the first direct observation using ESEM.
Revised: October 27, 2005 |
Published: July 1, 2004
Citation
Hoffman R.C., A. Laskin, and B.J. Finlayson-Pitts. 2004.Sodium Nitrate Particles: Physical and Chemical Properties During Hydration and Dehydration, and Implications for Aged Sea Salt Aerosols.Journal of Aerosol Science 35, no. 7:869-887.PNNL-SA-41215.