Organosulfate-driven amplification of secondary organic aerosol formation from isoprene oxidation intermediates: Coupled effects of SO2 and relative humidity
Key Points
Increased secondary organic aerosol formation highlights the role of organosulfates in atmospheric chemistry, particularly under varying humidity levels.
The formation of aerosols was significantly elevated in the presence of SO2, emphasizing its interaction with isoprene oxidation products.
Evidence shows that both relative humidity and SO2 levels contribute to the complexity of secondary organic aerosol dynamics.
Understanding organosulfate-driven pathways is crucial for predicting aerosol behavior and environmental impacts.
Organosulfate-driven amplification of secondary organic aerosol formation from isoprene oxidation intermediates: Coupled effects of SO2 and relative humidity | Synapse