Chemical composition and hydrolysis of organic nitrate aerosol formed from hydroxyl and nitrate radical oxidation of α-pinene and β-pinene

Atmospheric organic nitrate (ON) is thought to play a crucial role in the formation potential of ozone and aerosol, which are the leading air pollutants of concern across the world. Limited fundamental knowledge and understanding of the life cycles of ON currently hinder the ability to quantitatively assess its impacts on the formation of these pollutants. Although hydrolysis is currently considered an important loss mechanism of ON based on prior field measurement studies, this process for atmospherically relevant ON has not been well constrained by fundamental laboratory studies. In this comprehensive study, we investigated the chemical composition and hydrolysis process of particulate ON (pPN) formed from the oxidation of alpha-pinene and beta-pinene by hydroxyl (OH center dot) and nitrate radicals (NO3 center dot). For pON that undergoes hydrolysis, the hydrolysis lifetime is determined to be no more than 30 min for all systems explored. This is significantly shorter than those reported in previous chamber studies (i.e., 3-6 h) but is consistent with the reported lifetime from bulk solution measurement studies (i.e., 0.02-8.8 h). The discrepancy appears to stem from the choice of proxy used to estimate the hydrolysis lifetime. The measured hydrolyzable fractions of pON (F-H) in the alpha-pinene + OH center dot, beta-pinene + OH center dot, alpha-pinene + NO3 center dot, and beta-pinene + NO3 center dot systems are 23 %-32 %, 27 %-34 %, 9 %17 %, and 9 %-15 %, respectively. While a very low F-H for the NO3 center dot oxidation system is expected based on prior studies, F-H for the OH center dot oxidation system is surprisingly lower than predicted in past studies. Overall, the hydrolysis life-time as well as hi obtained in this study serve as experimentally constrained parameters that are required in regional and global chemical transport models to accurately evaluate the impacts of ON on nitrogen budget and formation of ozone and aerosol.