Summary: | This thesis covers two separate projects: first, we investigate the effects of chloride (Cl–) on anthracene photodegradation kinetics in seawater, saline aqueous solutions, and in frozen saltwater solutions. Next, we measure hypochlorous acid (HOCl) concentrations during bathroom surface cleaning with a bleach-based product to inform human exposure risks during and following cleaning activities. The environment is complex, having multiple phases that have different physical and chemical properties. Pollutants deposited throughout the environment can react differently based on these varying properties. Changes in reactivity have been observed for polycyclic aromatic hydrocarbons (PAHs) when assessing their photodegradation kinetics in aqueous, organic, and frozen settings. Polycyclic aromatic hydrocarbons are ubiquitous, toxic environmental pollutants with adverse health effects, whose degradation products are often just as or more toxic than the parent PAH. To better understand the environmental fate of PAHs, an understanding of their reactivity in these compartments is necessary but is also complicated by technical challenges associated with measuring reaction kinetics in complex condensed phases relevant to the environment. We measured the PAH anthracene’s photodegradation kinetics in seawater and in sea ice proxies compared to liquid and frozen freshwater samples. The presence of chloride salt enhanced photodegradation kinetics in both aqueous and frozen media by factors of ~ 1.5 and ~ 4, respectively, compared to anthracene’s photodegradation kinetics in pristine water. This research helps us better understand and predict anthracene’s and potentially other aromatic pollutants’ environmental fate, particularly in non-pristine environments. Cleaning indoors can release pollutants that affect indoor air quality. Bleach, a common cleaning agent, releases active chlorine as hypochlorous acid (HOCl) which can affect air quality and health. Hypochlorous acid emissions that evolve during cleaning have been measured ...
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