A33N-07:
Amine Chemistry at Aqueous Interfaces: The Study of Organic Amines in Neutralizing Acidic Gases at an Air/Water Surface Using Vibrational Sum Frequency Spectroscopy

Wednesday, 17 December 2014: 3:10 PM
Laura McWilliams1, Sumi Natalie Wren2, Nicholas A Valley1 and Geraldine Richmond3, (1)University of Oregon, Eugene, OR, United States, (2)University of Toronto, Eugene, OR, United States, (3)University of Oregon, Chemistry, Eugene, OR, United States
Abstract:
Small organic bases have been measured in atmospheric samples, with their sources ranging from industrial processing to animal husbandry. These small organic amines are often highly soluble, being found in atmospheric condensed phases such as fogwater and rainwater. Additionally, they display acid-neutralization ability often greater than ammonia, yet little is known regarding their kinetic and thermodynamic properties. This presentation will describe the molecular level details of a model amine system at the vapor/liquid interface in the presence of acidic gas. We find that this amine system shows very unique properties in terms of its bonding, structure, and orientation at aqueous surfaces. The results of our studies using a combination of computation, vibrational sum frequency spectroscopy, and surface tension will report the properties inherent to these atmospherically relevant species at aqueous surfaces.