The application of personal care products such as fragrances and body lotions suppresses a potentially unhealthy “human oxidation field” that exists around our bodies, researchers report.
The research appears in Science Advances.
This zone, which was the subject of a paper by the same team published in Science in 2022, is created when oils and fats on skin react with ozone, an important oxidant in the indoor environment.
Combined with emissions from cooking, cleaning, smoking, interior paint, rugs and furnishings, and the introduction of ozone transported from outdoors, this close-to-body region—in which highly reactive compounds called hydroxyl radicals are present—has the potential to substantially affect indoor air quality and human exposure to indoor pollutants.
In the paper, the researchers report that body lotion hinders the generation of a key hydroxyl radical precursor by acting as a physical barrier between ozone in the air and squalene—a naturally occurring oil—on skin. They also found that ethanol solvent in fragrances acts as a hydroxyl radical sink, which reduces the strength of the human oxidation field.
Co-corresponding author Manabu Shiraiwa, UC Irvine professor of chemistry, led the creation of a multiphase chemical kinetic model and collaborated with researchers at Penn State to build a computational fluid dynamics model to demonstrate how concentrations of the reactive components accrue indoors.
“Our team took a unique approach to simulate concentrations of chemical compounds near humans in the indoor environment,” Shiraiwa says.
“We developed a state-of-the-art chemical model that can simulate reactions of ozone with human skin and clothing that can lead to the formation of [hydroxyl radicals] and semi-volatile organic compounds.”
The authors say that their findings have substantial implications for indoor air chemistry, the air quality of occupied spaces, and human health since many of the chemicals in our immediate vicinity are transformed by the human oxidation field.
“If we buy a sofa from major furniture company, it’s tested for harmful emissions before being put on sale. However, when we sit on the sofa, we naturally transform some of these emissions because of the oxidation field we generate,” says lead author Jonathan Williams, who heads the study of organic reactive species at the Max Planck Institute for Chemistry.
“This can create many additional compounds in our breathing zone whose properties are not well known or studied. Interestingly, body lotion and perfume both seem to dampen down this effect.”
The work was part of the Indoor Chemical Human Emissions and Reactivity project, which brought together collaborators from Denmark, Germany, and the United States. Computer modeling was provided by the Modelling Consortium for Chemistry of Indoor Environments, based at UC Irvine and led by Shiraiwa. Both efforts were funded by grants from the Alfred P. Sloan Foundation.
Source: UC Irvine
