Tyubaeva, P.M.; Gasparyan, K.G.; Romanov, R.R.; Kolesnikov, E.A.; Martirosyan, L.Y.; Larkina, E.A.; Tyubaev, M.A. Biomimetic Materials Based on Poly-3-Hydroxybutyrate and Chlorophyll Derivatives. Polymers 2023, 16, 101, doi:10.3390/polym16010101.
Tyubaeva, P.M.; Gasparyan, K.G.; Romanov, R.R.; Kolesnikov, E.A.; Martirosyan, L.Y.; Larkina, E.A.; Tyubaev, M.A. Biomimetic Materials Based on Poly-3-Hydroxybutyrate and Chlorophyll Derivatives. Polymers 2023, 16, 101, doi:10.3390/polym16010101.
Tyubaeva, P.M.; Gasparyan, K.G.; Romanov, R.R.; Kolesnikov, E.A.; Martirosyan, L.Y.; Larkina, E.A.; Tyubaev, M.A. Biomimetic Materials Based on Poly-3-Hydroxybutyrate and Chlorophyll Derivatives. Polymers 2023, 16, 101, doi:10.3390/polym16010101.
Tyubaeva, P.M.; Gasparyan, K.G.; Romanov, R.R.; Kolesnikov, E.A.; Martirosyan, L.Y.; Larkina, E.A.; Tyubaev, M.A. Biomimetic Materials Based on Poly-3-Hydroxybutyrate and Chlorophyll Derivatives. Polymers 2023, 16, 101, doi:10.3390/polym16010101.
Abstract
Biomimetic materials are substances that replicate natural structures. There are several methods for producing such materials with highly developed surfaces from a wide range of polymers, but electrospinning is of particular interest due to its simplicity of implementation and the ability to modify the produced fibrous materials resembling structures found in living organisms. This study explores new biomimetic materials based on polyhydroxyalkanoates, specifically poly-3-hydroxybutyrate, modified with chlorophyll derivatives. The research investigates the impact of chlorophyll derivatives on the morphology, supramolecular structure, and key properties of nonwoven materials. The obtained results are of interest for the development of new biomimetic environmentally friendly materials for biomedicine with special properties.
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