Collaborations
| Organization Name and Collaborator | PNNL Collaborator | Nature of Collaboration |
|
ETH Switzerland (Swiss Federal Institute of Technology)
Institute for Atmospheric and Climate Science; Dr. Ulrike Lohmann, joint Ph.D. student Hanna Herich |
Dan Cziczo |
- Modeling and field studies - Effects of aerosol composition on hygroscopicity - a key determinate in the formation of warm clouds as well as a prime driver of heterogeneous chemistry |
|
Hebrew University of Jerusalem, Israel; Dr. Alexander Khain |
Mikhail Ovtchinnikov | - Modeling cloud and precipitation particle size distributions |
|
National Oceanic and Atmospheric Administration (NOAA); Dr. Georg Grell |
Jerome Fast | - Modifying and accommodating new aerosol process modules in the WRF-chem model that is designed for public use |
|
National Center for Atmospheric Research (NCAR); Dr. Mary Barth |
Jerome Fast | - Modifying and accommodating a new aerosol process modules in the WRF-chem model that is designed for public use |
|
State University of New York - Stony Brook; Dr. Marat Khairoutdinov |
Mikhail Ovtchinnikov | - Developing a new cloud-resolving model by coupling the System for Atmospheric Modeling (SAM) with Dr. Khain's spectral bin model for the cloud microphysics |
|
University of California, San Diego
Department of Chemistry & Biochemistry; Dr. Kimberly Prather |
Dan Cziczo | - Applying single-particle mass spectrometry |
|
University of Illinois,
Urbana Champaign; Dr. Nicole Riemer, Dr. Matt West |
Rahul Zaveri | - Combining PNNL's comprehensive aerosol chemistry model MOSAIC with the Riemer and West stochastic aerosol dynamics model "PartMC." The resulting model (MOSAIC-PartMC) is a unique particle-resolved aerosol chemistry, microphysics, and dynamics model |
|
University of Washington
Department of Atmospheric Sciences; Dr. Joel Thornton |
Dan Cziczo | - Understanding the effect of anthropogenic activities on the composition of the atmosphere. Specifically, heterogeneous chemistry (UW) combined with expertise in determining aerosol chemical composition using mass spectrometry (PNNL). Simultaneous characterization of aerosol composition and their ability to act as site of atmospherically relevant reactions |