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Isothermal evaporation of α -pinene secondary organic aerosol particles formed under low NO x and high NO x conditions
[摘要] Many recent secondary organic aerosol (SOA) studies mainly focus on biogenic SOA particles formed under low NO x conditions and thus are applicable to pristine environments with minor anthropogenic influence. Although interactions between biogenic volatile organic compounds and NO x are important in, for instance, suburban areas, there is still a lack of knowledge about the volatility and processes controlling the evaporation of biogenic SOA particles formed in the presence of high concentrations of NO x . Here we provide detailed insights into the isothermal evaporation of α -pinene SOA particles that were formed under low NO x and high NO x conditions to investigate the evaporation process and the evolution of particle composition during the evaporation in more detail. We coupled Filter Inlet for Gases and AEROsols-Chemical Ionization Mass Spectrometer (FIGAERO-CIMS) measurements of the molecular composition and volatility of the particle phase with isothermal evaporation experiments conducted under a range of relative humidity (RH) conditions from low RH ( <7  % RH) to high RH (80 % RH). Very similar changes were observed in particle volatility at any set RH during isothermal evaporation for the α -pinene SOA particles formed under low NO x and high NO x conditions. However, there were distinct differences in the initial composition of the two SOA types, possibly due to the influence of NO x on the RO 2 chemistry during SOA formation. Such compositional differences consequently impacted the primary type of aqueous-phase processes in each type of SOA particle in the presence of particulate water.
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[效力级别]  [学科分类] 医学(综合)
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