Engineering human hair
Bionanotechnologists from the Kazan Federal University, Russia will develop methods for modifying human hair. According to the researchers, it will be possible not only to change the color of the hair, thickness, texture and aroma, but also to protect the structure of the hair and skin under them from ultraviolet radiation.
Nano- containers carry organic components
Dr. Fakhrullin explains, “We will modify the surface of hair and other fibrous materials of natural origin by the directed formation of nano-structured layers based on functional inorganic ceramic nano containers carrying a variety of organic components. Materials of natural origin are hypoallergenic, comfortable to use, but they have rather low wear resistance, and they are prone to deformation and biodegradation. Directed modification of properties using functionalized nano materials will significantly expand the field of application of natural fibers.” Based on the close similarity of the microstructure of fibrous materials of natural origin and mammalian hair, the scientists are going to create a universal technology for modifying the surface of fibers of biological origin for use in the textile and cosmetic industries.
Changing aesthetic properties of hair
“By modifying the fibrous structures of natural origin, it will be possible to change their aesthetic properties (color, texture and smell), protect them from biodegradation by applying antibacterial, fungicidal and insecticidal preparations, as well as increase the fire resistance of fabrics and non-woven materials based on wool, cotton, linen and silk,” elaborates Fakhrullin. In addition, using these methods, the project leader is convinced, it will be possible to create tools for applying topical anti-inflammatory drugs based on functional nano containers. When applied to human hair in affected areas of the skin, they will provide a prolonged gradual release of drugs. Veterinary preparations with a similar principle of action can be applied to the fur of farm and domestic animals for medicinal purposes.
In the process, scientists will also study the fundamental processes of self-assembly of inorganic nanoparticles on the surface of biological fibers and determine the optimal parameters for the directed modification of the properties of fibrous materials. “Inorganic nano particles of various origin, biopolymers and their complexes will be used to study the patterns of self-assembly of nanoparticles on the surface of fibers,” Fakhrullin concludes. “Hair surface engineering: modification of fibrous materials of biological origin using functional ceramic nano containers”, a project headed by Rawil Fakhrullin, is supported by the Russian Science Foundation.