Sum Frequency Generation of O-H Vibrations on the Surface of H₂O/HNO₃ Solutions and Liquid HNO₃

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Cheryl Schnitzer, Steve Baldelli, and Mary Shultz Department of Chemistry, Tufts University, Medford, Massachusetts 02155 D.J. Campbell Department of chemistry, College of the Holy Cross, Worcester, Massachusetts 01610

 Journal of Physical Chemistry A, 103, 6383 - 6386, 1997.
The surfaces of aqueous HNO₃ are examined using sum frequency generation (SFG). A molecular-level picture of these atmospherically relevant systems is developed. Consistent with previous interpretations, an electric double layer comprised of subsurface anions and cations develops in 0.005x and 0.01x HNO₃ solutions, where x = mole fraction. Compared to pure water, these solutions generate more SFG signal in the hydrogen-bonded region as water molecules respond to the subsurface electric field by aligning with the surface normal. At higher concentrations, 0.05x and 0.4x HNO₃, ionic complexes or molecules sufficiently approach the surface to disrupt the hydrogen-bonding network and perturb the first water layer. Neither liquid nitric acid nor its solutions show a clear O-H.


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