Themed collection Chemistry of Atmospheric Pollutants

Guest editors Amila De Silva, Max McGillen, Jason Surratt and Cora Young introduce the Environmental Science: Processes & Impacts themed issue on the chemistry of atmospheric pollutants.

We engage in research motivated by climate change and the impacts of pollution on air, water, and human health. The scientific community need to improve communication and knowledge exchange across disciplines to address pressing research questions holistically.

PFAS are detected in particulate matter around the world.

New measurements show that cooking aerosol released indoors can partition as it dilutes through a home and to the outdoor atmosphere, impacting both indoor and outdoor air quality.

Chlorinated cleaning products containing hypochlorous acid (HOCl) and hypochlorite ion (OCl⁻) act as sources of toxic chloramines (NH₂Cl, NHCl₂, NCl₃) and atmospheric oxidant precursors (i.e. Cl₂) which impact air quality.

Mine tailings are sources of metal(loid)-rich particulate matter (PM), particularly in dry climates. Inhaled or ingested PM bioavailability and toxicity depends on the solid phase speciation and the rate of PM dissolution.

Per- and polyfluoroalkyl substances (PFAS) can be measured in real time in gas and aerosol using iodide chemical ionization mass spectrometry (CIMS).

The atmospheric fate of perfluorocarboxylic acids (PFCAs) has attracted much attention in recent decades due to the role of the atmosphere in global transport of these persistent chemicals.

The uptake of WSOC_g from biomass burning into ALW results in compounds that remain in the particle phase upon drying.

As nitrogen-containing organic carbon of atmospheric relevance, the water uptake of two phenolic compounds, o-aminophenol and p-aminophenol, is investigated under sub- and supersaturated conditions through the lens of aerosol-cloud interactions.

We suggest a re-evaluation of two reaction rate constants to be able to better model iodine emission from the ozonolysis of iodide in the presence of chloride.

Measurements of the kinetics of accretion reactions involving organic compounds typical of those present in atmospheric aerosol particles demonstrate the potential importance of peroxyhemiacetal and ester formation in a single organic phase and in phase-separated organic/aqueous mixtures containing a sulfuric acid catalyst.

The comprehensive reaction mechanism of Fe^III–citrate multiphase photochemistry and formation of unexplored colloidal reaction products that contribute to terrestrial light-absorbing materials.

This work highlights how the pH of the atmospheric aqueous phase can influence the reactivities of phenolic compounds and brown carbon formation/evolution during nitrate-mediated photooxidation.

We studied the mechanisms of cooking oil decomposition that lead to emission of aldehydes, an important group of air pollutants, from food cooking.