Imaging and Characterization of Engineered Nanoparticles in Sunscreens by Electron Microscopy, Under Wet and Dry Conditions

Abstract

There is increasing concern over the risks of nanoparticles to humans and the environment, but little is known about the properties of the nanoparticulate mineral filters, such as titanium dioxide and zinc oxide, in sunscreens. There is an urgent need to develop methods for characterizing nanoparticles in (NPs) such products to provide data for human and environmental risk assessments. This study explored three methods (transmission electron microscopy [TEM], conventional scanning electron microscopy [SEM], and wet-scanning electron microscopy [WetSEM]) for characterizing NPs in sunscreens. Our results showed that these products contained titanium dioxide and zinc oxide particles in the nanometer range; thus, it is likely that consumers and the environment are exposed to engineered NPs through the use of these products. Further, we found that the combination of all three microscopy methods provided the most comprehensive information on size-related properties, which are crucial parameters for risk assessment of NPs in wet matrices.