High throughput workflow for coacervate formation and characterization in shampoo systems

T. H. Kalantar, C. J. Tucker, A. S. Zalusky, T. A. Boomgaard, B. E. Wilson, M. Ladika, S. L. Jordan, W. K. Li, X. Zhang, C. G. Goh

Research output: Contribution to journalArticlepeer-review

26 Scopus citations

Abstract

Cationic cellulosic polymers find wide utility as benefit agents in shampoo. Deposition of these polymers onto hair has been shown to mend split-ends, improve appearance and wet combing, as well as provide controlled delivery of insoluble actives. The deposition is thought to be enhanced by the formation of a polymer/surfactant complex that phase-separates from the bulk solution upon dilution. A standard characterization method has been developed to characterize the coacervate formation upon dilution, but the test is time and material prohibitive. We have developed a semi-automated high throughput workflow to characterize the coacervate-forming behavior of different shampoo formulations. A procedure that allows testing of real use shampoo dilutions without first formulating a complete shampoo was identified. This procedure was adapted to a Tecan liquid handler by optimizing the parameters for liquid dispensing as well as for mixing. The high throughput workflow enabled preparation and testing of hundreds of formulations with different types and levels of cationic cellulosic polymers and surfactants, and for each formulation a haze diagram was constructed. Optimal formulations and their dilutions that give substantial coacervate formation (determined by haze measurements) were identified. Results from this high throughput workflow were shown to reproduce standard haze and bench-top turbidity measurements, and this workflow has the advantages of using less material and allowing more variables to be tested with significant time savings.

Original languageEnglish
Pages (from-to)375-383
Number of pages9
JournalJournal of Cosmetic Science
Volume58
Issue number4
StatePublished - Jul 2007

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