Brillouin microscopy for the evaluation of hair micromechanics and effect of bleaching |
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| Authors: | Noemi Correa Martina Alunni Cardinali Michelle Bailey Daniele Fioretto Paul D. A. Pudney Francesca Palombo |
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| Affiliation: | 1. School of Physics, University of Exeter, Exeter, UK;2. Department of Physics and Geology, University of Perugia, Perugia, Italy;3. Unilever R and D Port Sunlight, Wirral, UK |
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| Abstract: | Brillouin microscopy is a new form of optical elastography and an emerging technique in mechanobiology and biomedical physics. It was applied here to map the viscoelastic properties of human hair and to determine the effect of bleaching on hair properties. For hair samples, longitudinal measurements (i.e. along the fibre axis) revealed peaks at 18.7 and 20.7 GHz at the location of the cuticle and cortex, respectively. For hair treated with a bleaching agent, the frequency shifts for the cuticle and cortex were 19.7 and 21.0 GHz, respectively, suggesting that bleaching increases the cuticle modulus and—to a minor extent—the cortex modulus. These results demonstrate the capability of Brillouin spectroscopy to address questions on micromechanical properties of hair and to validate the effect of applied treatments. |
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| Keywords: | biomechanics elasticity tensor fibres matrix viscoelasticity Young's modulus |
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