Moisture-Resistant Hairstyling Agent
—Development of a Humidity-Induced Shape Memory Polymeric Material—
2023.11.08
National Institute for Materials Science (NIMS)
NIHON L'ORÉAL K.K.
NIMS and Nihon L'Oréal K.K. have developed a shape memory polymeric material responsive to humidity. This innovative material serves as an exceptionally moisture-resistant hairstyling agent.
(”Humidity-Responsive Polyvinyl Alcohol/Microcrystalline Cellulose Composites with Shape Memory Features for Hair-Styling Applications” Koichiro Uto, Yihua Liu, Mingwei Mu, Rie Yamamoto, Chinami Azechi, Mizuki Tenjimbayashi, Adrien Kaeser, Marie-Adeline Marliac, Mohammad Mydul Alam, Jun Sasai, Mitsuhiro Ebara; Journal: Advanced Materials Interfaces [November 1, 2023]; DOI : 10.1002/admi.202300274)
Abstract
- NIMS and Nihon L'Oréal K.K. have developed a shape memory polymeric material responsive to humidity. This innovative material, when applied to a person’s hair and allowed to dry, serves as an exceptionally moisture-resistant hairstyling agent.
- Hairstyles play a crucial role in personalizing one’s appearance and showing self-confidence. Demand for effective and functional hairstyling products has been growing. Weather-related humidity and sweat from exertion have long been a problem for hairstyle stability. Most currently available hairstyling products (e.g., hair sprays and gels) merely create a physical barrier on the hair’s surface, offering limited protection against humidity. There is a considerable expectation for the development of advanced, highly moisture-resistant hairstyling agents.
- This research team recently developed a humidity-responsive shape memory polymeric composite designed as a moisture-resistant hairstyling agent. The material’s moisture resistance stems from the hydrogen bonding between polyvinyl alcohol (PVA) and naturally occurring cellulose microcrystals (CMs), forming a robust PVA/CM network. These hydrogen bonds maintain the structural integrity of the PVA and CM components even when exposed to water molecules. The team compared PVA/CM composite coated and uncoated bundles of curled hair and found that the uncoated bundles uncurled and stretched more extensively than coated ones after being subjected to 80% relative humidity for six hours. The team also found that the composites’ efficacy in maintaining the original curled hair shape improved with an increased ratio of CM-to-PVA. These findings indicated the material’s effectiveness in preventing the uncurling and stretching of curled hair in high humidity conditions. The material can be easily washed off using warm water (42°C) or shampoo.
- This research elucidates the humidity-induced shape memory mechanism exhibited by the PVA/CM composite and demonstrates its potential for use as a humidity-resistant hairstyling agent.
- This project was carried out by Koichiro Uto (Senior Researcher, Smart Polymers Group (SPG), Research Center for Macromolecules and Biomaterials (RCMB), NIMS), Mitsuhiro Ebara (Leader, SPG, RCMB, NIMS) and a L’Oréal Research and Innovation team.
- This research was published in Advanced Materials Interfaces, an open access journal, on November 1, 2023.
Related files
- Research Center for Macromolecules and Biomaterials (RCMB)
Contact information
(Regarding this research)
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Koichiro Uto
Senior Researcher
Smart Polymers Group
Biomaterials Field
Research Center for Macromolecules and Biomaterials
National Institute for Materials Science
Tel: +81-29-860-4179
E-Mail: UTO.Koichiro=nims.go.jp
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Mitsuhiro Ebara
Group Leader
Smart Polymers Group
Biomaterials Field
Research Center for Macromolecules and Biomaterials
National Institute for Materials Science
Tel: +81-29-860-4775
E-Mail: Ebara.Mitsuhiro=nims.go.jp
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(General information)
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Public Relations Office
National Institute for Materials Science
Tel: +81-29-859-2026
Fax: +81-29-859-2017
E-Mail: pressrelease=ml.nims.go.jp
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L’OREAL RESEARCH & INNOVATION JAPAN
Communications:
Ayumi HAYASHI
E-Mail: ayumi.hayashi=loreal.com (Please change "=" to "@")
Setsuko JITSUKAWA
E-Mail: setsuko.jitsukawa=loreal.com (Please change "=" to "@")