Diffusion and distribution of element‐labelled surfactants in human hair

Synopsis To directly follow the diffusion process of cosmetically relevant agents into human hair, a specific methodological approach is presented and elucidated for selected surfactants. For this, practically relevant anionic and cationic surfactants were synthesized with a chlorine atom at the end of their alkyl chain. The property changes of the surfactants through the modification are corresponding to an extension of the alkyl chain by about two methylene groups, thus representing a moderate increase of hydrophobicity. After the application of a modified surfactant to hair, it can be localized and quantified through its chlorine atom in cross‐sections by scanning electron microscopy combined with micro X‐ray fluorescence analysis. The determination of the diffusion coefficient D is realized through the application of the Matano‐equation to element intensity profiles. Values for D vary within the chosen range of pH and temperature between 10 −14 and 10 −16  m 2  s −1 . The diffusion coefficients for the anionic surfactants increase with decreasing pH and increasing temperature, The temperature dependence follows in all cases the Arrhenius relationship with activation energies E A of 50–100 kJ mol −1 , which decrease with pH. The pH‐related effects, with comparable values for D and E A , are opposite for the cationic surfactant. These observations are consistently interpreted on the basis of ionic and hydrophobic interactions in hair.