Пористые системы как основа повышения функциональности материалов В. М. Бузник, Е. Н. Больбасов, В. В. Козик
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ArticleOther title: The porous system as a basis for improving the functionality of materials [Parallel title]Subject(s): пористые материалы | пористые полимерные материалыGenre/Form: статьи в сборниках Online resources: Click here to access online
In:
Полифункциональные химические материалы и технологии. [Т. 1] : материалы Международной научной конференции, 22-25 мая 2019 г Т. 1. С. 31-33Abstract: The tendency of modern materials science to create polyfunctional porous composite materials is shown. The methods
of porisation and hydrophobization of these materials are considered by introducing low molecular weight
fluoropolymers in supercritical CO2 into the pores and creating polymer coatings of nanoscale thickness, which
provides more complex composites with additional functionality. The microwave synthesis of porous heat-insulating
materials and their use in modern technology are considered. The use of porous composite materials in the field of
tissue engineering and regenerative medicine is shown, and the biological response of cells and tissues to the material is
largely determined by the organization of the internal pore space of the porous materials.
The tendency of modern materials science to create polyfunctional porous composite materials is shown. The methods
of porisation and hydrophobization of these materials are considered by introducing low molecular weight
fluoropolymers in supercritical CO2 into the pores and creating polymer coatings of nanoscale thickness, which
provides more complex composites with additional functionality. The microwave synthesis of porous heat-insulating
materials and their use in modern technology are considered. The use of porous composite materials in the field of
tissue engineering and regenerative medicine is shown, and the biological response of cells and tissues to the material is
largely determined by the organization of the internal pore space of the porous materials.
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