Publications by authors named "Aki Pajunoja"
The effects of methylglyoxal uptake on the physical and optical properties of aerosol containing amines or ammonium sulfate were determined before and after cloud processing in a temperature- and RH-controlled chamber. The formation of brown carbon was observed upon methylglyoxal addition, detected as an increase in water-soluble organic carbon mass absorption coefficients below 370 nm and as a drop in single-scattering albedo at 450 nm. The imaginary refractive index component k reached a maximum value of 0.
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- Secondary organic aerosols (SOA) significantly contribute to organic aerosols in the atmosphere, and understanding their properties is essential for improving climate models.
- Our research combines experimental and modeling approaches to examine how humidity affects SOA evaporation, revealing that dry conditions lead to increased particle viscosity and limited evaporation.
- In warm, biogenic-dominated environments, the main uncertainty in SOA evaporation models relates to the volatility of SOA constituents, rather than diffusion limitations at higher humidity.
Aerosol and molecular processing in the atmosphere occurs in a complex and variable environment consisting of multiple phases and interfacial regions. To explore the effects of such conditions on the reactivity of chemical systems, we employ an environmental simulation chamber to investigate the multiphase photolysis of pyruvic acid, which photoreacts in the troposphere in aqueous particles and in the gas phase. Upon irradiation of nebulized pyruvic acid, acetic acid and carbon dioxide are rapidly generated, which is consistent with previous literature on the bulk phase photolysis reactions.
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