Research

Our main research interests revolve around the physicochemical properties of atmospheric aerosol (relative stable suspensions of liquid or solid particles in a gas with diameters of 2 nm – 100 µm) and its sources with subsequent impacts for air quality and climate.

Figure above displays typical chemically complex aerosol particles collected on substrates for microscopic imaging. (A) Particles from the free troposphere collected in the eastern North Atlantic (China et al., 2017). (B) Urban aerosol collected in Los Angeles (Wang et al., 2012). (C) Ambient particles collected in the Sacramento, California area (Knopf et al., 2014). (D) Aerosol collected close to a waster incinerator in Mexico City (Knopf et al., 2014).

The composition of aerosol particles defines their roles in a multitude of atmospheric processes such as the global radiative budget (climate), cloud formation, the hydrological cycle, and air quality, the latter also impacting health-related issues. In fact, the effect of aerosol particles on the global radiative budget and thus climate has been identified as the largest unknown to predict future climate changes.

To advance our understanding of these processes our group is currently addressing the following research topics:

Please click on these themes to learn more about our projects.