Optical tools to assess naturalness of cosmetic films
Identifieur interne : 003917 ( Main/Exploration ); précédent : 003916; suivant : 003918Optical tools to assess naturalness of cosmetic films
Auteurs : Prithwiraj Maitra [États-Unis] ; Angelina Balina [États-Unis] ; Steven Carlo [États-Unis] ; John R. Glynn Jr. [États-Unis]Source :
- Color Research & Application [ 0361-2317 ] ; 2009-04.
English descriptors
- Teeft :
- Annual meeting, Avon magix face perfector, Cameron miller maria, Carl andersen, Color council, Color education, Color harmony, Color research, Color scientist, Color vision, Color wheel, Colored light, Cosmet toiletries, Cosmetic, Cosmetic formulations, Cosmetic industry, Diffuse transmittance, Digital form, Direct transmittance, Expert symposium, Federal highway administration, Goniospectrophotometer, Hallmark cards, Human face, Human perception, Interest group, Introductory lecture, Karin fridell anter, Lars sivik, Lens brunescense, Light source, Lucia ronchi, Makeup cream, Natural appearance, Nylon particles, Opacity, Optical properties, Paula alessi, Photoluminescent egress path markings, Photoluminescent materials, Processes information, Research demands, Research presentations, Research results, Safety colors, Soft focus, Soft focus effect, Soft focus materials, Surface colors, Third language, Total transmittance, Transmittance, Unique quality, Uorescent colors, Visual system, Wide angle, Wide angle transmittance, Wide angles, Wiley interscience, York city, Youthful skin.
Abstract
Developing technologies and cosmetic formulations that mimic the optical properties of healthy, youthful skin is a significant challenge and has been one of the recent key areas of focus in the cosmetic industry. A common tool to assess optical properties of cosmetic formulations involves use of spectrophotometer with an integrating sphere to measure transmittance and opacity. Given that the human face is three‐dimensional and contoured, and that the human eye processes information gathered at many angles, adding a measure that capture the angular behavior of light provides cosmetic scientists with an additional valuable tool. Here we describe addition of wide angle transmittance measurement via goniospectrophotometer to the optical tool kit. Results with soft focus materials and commercially available cosmetic products are reported. © 2009 Wiley Periodicals, Inc. Col Res Appl, 34, 170–172, 2009
Url:
DOI: 10.1002/col.20474
Affiliations:
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<front><div type="abstract" xml:lang="en">Developing technologies and cosmetic formulations that mimic the optical properties of healthy, youthful skin is a significant challenge and has been one of the recent key areas of focus in the cosmetic industry. A common tool to assess optical properties of cosmetic formulations involves use of spectrophotometer with an integrating sphere to measure transmittance and opacity. Given that the human face is three‐dimensional and contoured, and that the human eye processes information gathered at many angles, adding a measure that capture the angular behavior of light provides cosmetic scientists with an additional valuable tool. Here we describe addition of wide angle transmittance measurement via goniospectrophotometer to the optical tool kit. Results with soft focus materials and commercially available cosmetic products are reported. © 2009 Wiley Periodicals, Inc. Col Res Appl, 34, 170–172, 2009</div>
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