AI Article Synopsis
- Atmospheric aerosol particles cause over four million premature deaths each year and significantly impact Earth's climate.
- Most atmospheric particles and over 50% of cloud condensation nuclei are created through new particle formation, involving specific precursor vapors.
- Experiments conducted at the CERN CLOUD chamber reveal the importance of sulfuric acid, highly oxygenated organic molecules, iodine oxoacids, and stabilizers like ammonia in this process, enhancing our understanding of atmospheric conditions and improving models for air quality and climate.
Article Abstract
Atmospheric aerosol particles contribute to over four million premature deaths annually and play a critical role in modulating Earth's climate. Most atmospheric particles and more than 50% of the cloud condensation nuclei are formed through a secondary process named new particle formation involving unique precursor vapors. This article summarizes current knowledge of how new atmospheric particles form, based on experiments at the CERN CLOUD chamber. While the role of sulfuric acid has long been known, other vapors like highly oxygenated organic molecules and iodine oxoacids are also important, along with stabilizers like ammonia, amines, and ions from cosmic rays. We explain how findings from CLOUD experiments help us understand particle formation in various atmospheric conditions and improve air quality and climate models.
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| http://dx.doi.org/10.2533/chimia.2024.739 | DOI Listing |
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