Atmospheric chemistry: Characterization of light absorption and total organic carbon content of amine-aldehyde secondary organic aerosol. The Hawkins lab has a sampling system to collect atmospheric aerosol particles (like smog), measure the UV/vis absorption spectrum of discrete samples, and measure the total organic carbon content of the particles. To improve this system, we need to determine its sensitivity to laboratory conditions. Student(s) will (1) test the system to ensure no contamination from in-house air, (2) monitor the system over a variety of temperature conditions, and (3) measure particles from the LA air for a continuous period of time. A literature-based research project will support the analysis process to aid in understanding how brown carbon aerosol forms.
 
Atmospheric chemistry: Developing chemical force microscopy for analyzing atmospheric aerosol particles. Single-particle morphology and composition for atmospheric aerosol measurements require special facilities off-campus. In lieu of this resource, we have begun to use Atomic Force Microscopy to measure individual particles here at HMC. Student(s) will (1) develop a method to apply chemical force microscopy to atmospheric samples, and (2) analyze atmospheric particles with the newly modified technique.
 
Atmospheric chemistry: Developing a “fog” chamber to learn how fog formation and evaporation impact particulate matter composition. Many studies have shown that the presence of overnight fog can alter the chemical composition and mass of particulate matter. Sulfate in aerosol particles is elevated when air containing sulfur dioxide passes through clouds. Aqueous processes like this also impact the organic components of particles, but are less well understood. The Hawkins lab would like to develop a way to simulate fog conditions so that ambient (atmospheric) particles can be exposed to fog and then sampled. These particles can be compared to non-fog particles to learn more about the role of fog. Students will help design and build a super-saturation chamber to make fog in the lab.