https://www.selleckchem.com/products/dtnb.html Cosmetic powders contain numerous components, including titanium dioxide (TiO ), which is classified as possibly carcinogenic to humans (Group 2B). However, little is known about potential inhalation exposures to particles that are released during cosmetic powder applications. We realistically simulated the application of five different eyebrow powders using a mannequin and then determined concentrations of total suspended particles (TSP), PM , and PM fractions of particles that would be inhaled during powder application. We determined the size and shape of particles in the original powders and released particles, as well as their TiO concentrations and Ti content of individual particles. The application of eyebrow powders resulted in the release and inhalation of airborne particles at concentrations ranging from 21.2 to 277.3 µg/m , depending on the particle fraction and the powder. The concentrations of TiO in PM and PM samples reached 2.7 µg/m and 9.3 µg/m , respectively. The concentration of TiO in airborne particle fractions was proportional to the presence of TiO in the bulk powder. The application of eyebrow powders results in user exposures to respirable PM and PM particles, including those containing TiO . This information should be of interest to stakeholders concerned about inhalation exposure to TiO . The application of eyebrow powders results in user exposures to respirable PM4 and PM10 particles, including those containing TiO2. This information should be of interest to stakeholders concerned about inhalation exposure to TiO2.An amendment to this paper has been published and can be accessed via a link at the top of the paper.The existence of Majorana quasiparticles was predicted in the edge state in topological insulators, especially in the p-wave superfluid medium [Formula see text]He-B. Due to its purity and coherent quantum state, [Formula see text]He-B is an ideal platform for searching for Majorana fe