Browse > Article
http://dx.doi.org/10.15230/SCSK.2012.38.2.133

Surface Properties of the Dried Coacervate Film Affect Dry Feel of the Shampoo Composed of Cationic Polymer and Anionic/Amphoteric Surfactant  

Son, Seong-Kil (LG Household & Health Care)
Jeon, Hyun-Wook (LG Household & Health Care)
Lee, In-Ho (LG Household & Health Care)
Chang, Sug-Youn (LG Household & Health Care)
Publication Information
Journal of the Society of Cosmetic Scientists of Korea / v.38, no.2, 2012 , pp. 133-138 More about this Journal
Abstract
The purpose of this study was to examine the correlation between physical properties of dried coacervate films and dry feel for shampoo composition. Simple shampoo compositions were made of two different cationic charge density polymers in the same surfactant compositions. The simple shampoo compositions were diluted with distilled water to make coacervate. Formed coacervate was collected by centrifuge (3,000 rpm, 30 min). Coacervate was coated on the glass plates and dried in drying oven (for 1 h, $50^{\circ}C$) to make the thin film. We carried out an experiment on measurement of contact angle, moisture loss ratio and SEM image analysis of the dried coacervate film. Dry feelings of the shampoos were evaluated by panel using hair tresses. Results show that the properties of dried coacervate films affect the dry feel of the after shampooing.
Keywords
coacervate; film; shampoo; dry feel; polymer;
Citations & Related Records
연도 인용수 순위
  • Reference
1 P. Hossel, R. Dieing, R. Norenberg, A. pfau, and R. Sander, Conditioning polymers in today's shampoo formulations - efficacy, mechanism and test method, International Journal of Cosmetic Science, 22(1), 1 (2000).   DOI   ScienceOn
2 G. Clera, New cationic conditioning polymers for hair care, ASIA PACIFIC PERSONAL CARE, September (2005).
3 R. Y. Lochhead and L. R. Huisinga, Advances in Polymers for Hair Conditioning Shampoos, Cosmetics & Toiletries magazine, 120(5), 69 (2005).
4 E. D. Goddard, T. S. Phillips, and R. B. Hannan, Water soluble polymer-surfactant interaction part I, J. Soc. Cosmet. Chem., 26(9), 461 (1975).
5 J. Caelles, F. Comelles, J. SaNCHEZ Leal, J. L. Parra, and S. Anguera, Anionic and cationic compounds in mixed systems, Cosmetics & Toiletries, 106(4), 49 (1991).
6 E. D. Goddard, P. S. Leung, and K. P. A. Padmanabhan, Novel gelling structures based on polymer/ surfactant systems, J. Soc. Cosmet. Chem., 42, 19 (1991).
7 S. Zhou, C. g Xu, J. Wang, P. Golas, and J. Batteas, Phase behavior of cationic hydroxyethyl cellulose-sodium dodecyl sulfate mixtures: Effect of molecular weight and ethylene oxide side chain length of polymers, Langmuir, 20(20), 8482 (2004).   DOI   ScienceOn
8 R. Y. Lochhead and L. R. Huisinga, A brief review of polymer/surfactant interaction, Cosmetics & Toiletries magazine, 119(2), 37 (2005).
9 R. L. Schmitt, B. Brook, E. D. Goddard, and Edison, Investigation into the adsorption of cationic polymers, Cosmetics & Toiletries magazine, 109(12), 83 (1994).
10 J. A. Faucher, E. D. Goddard, and R. B. Hannan, Sorption and desorption of a cationic polymer by human hair: Effect of salt solutions, Textile Research Journal, 47(9), 616 (1977).   DOI
11 Y. K. Kamath, C. J. Dansizer, and H. D. Weigmann, Surface wettability of human hair. III. Role of surfactants in the surface deposition of cationic polymers, Journal of Applied Polymer Science, 30(3), 937 (1985).   DOI   ScienceOn
12 E. Terada, Y. Samoshina, T. Nylander, and B. Lindman, Adsorption of cationic cellulose derivatives/ Anionic surfactant complexes onto solid surface. I. Silica Surfaces, Langmuir, 20(5), 1753 (2004).   DOI   ScienceOn
13 E. Terada, Y. Samoshina, T. Nylander, and B. Lindman, Adsorption of cationic cellulose derivatives/ anionic surfactant complexes onto solid surface. II. Hydrophobized Silica Surfaces, Lang- muir, 20(16), 6692 (2004).   DOI   ScienceOn
14 F. E. Antunes, E. F. Marques, R. Gomes, K. Thuresson, B. Lindman, and M. G. Miguel, Network formation of cationic vesicles and oppositely charged polyelectrolytes. Effect of polymer charge density and hydrophobic modification, Langmuir, 20(11), 4647 (2004).   DOI   ScienceOn
15 T. Nylander, Y. Samoshina, and B. Lindman, Formation of polyelectrolyte-surfactant complexes on surfaces, Advances in Colloid and Interface Science, 105, 123 (2006).
16 S. Chiron, Performance and sensorial benefits of cationic guar in hair care applications, Cosmetics & Toiletries magazine, 119(2), 47 (2004).
17 L. Wing, G. Clara, A. Jennifer, J. Susan, T. Alan, and C. Davis, Maximising shampoo performance, ASIA PACIFIC PERSONAL CARE, July (2006).
18 M. Gamez-Garcia, Controlling the deposition of insoluble actives to hair from shampoo systems, ASIA PACIFIC PERSONAL CARE, May (2002).
19 Y. Hiwatari, K. Yoshida, T. Akutsu, M. Yabu, and S. Iwai, Polyelectrolyte micelle coacervation -Effect of coacervate on the properties of shampoo-, International Journal of Cosmetic Science, 26(6), 316 (2004).
20 R. Y. Lochhead, L. R. Huisinga, and Tara Waller, Deposition from conditioning shampoo: Optimizing coacervate formation, Cosmetics & Toiletries magazine, 121(3), 75 (2006).