Template Synthesis of Calcium Phosphates in Nanoporous Polyolefin Films Obtained via Crazing Mechanism

An alternative method for production of hybrid organic–inorganic nanocomposites based on porous polyolefin films (isotactic polypropylene, high density polyethylene), deformed via crazing mechanism in physically active media, and calcium phosphates is proposed. Film composite materials of different...

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Published in	Inorganic materials : applied research Vol. 11; no. 5; pp. 1124 - 1129
Main Authors	Moskvina, M. A., Trofimchuk, E. S., Grabovenko, F. I., Nikonorova, N. I., Volynskii, A. L.
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 2020 Springer Nature B.V
Subjects	Anisotropy Biomedical materials Calcium phosphates Chemistry Chemistry and Materials Science Composite materials Crazing Crystal structure High density polyethylenes High temperature Hydroxyapatite Industrial Chemistry/Chemical Engineering Inorganic Chemistry Materials for Ensuring Human Vital Activity and Environmental Protection Materials Science Mechanical properties Morphology Nanocomposites Nanoparticles Polymers Polyolefins Porous media polypropylene calcium phosphates crazing morphology porosity polyethylene
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Abstract	An alternative method for production of hybrid organic–inorganic nanocomposites based on porous polyolefin films (isotactic polypropylene, high density polyethylene), deformed via crazing mechanism in physically active media, and calcium phosphates is proposed. Film composite materials of different structure and containing 10–25 wt % of filler are obtained. Particles of calcium hydroxyapatite with a diameter of 15–50 nm are formed in these films at once in the pores of the polymer matrices with the development of a layer, the morphology of which is determined by the structure of the original porous films, and its parameters can be controlled by the reaction conditions. It is found that the composites obtained are characterized by anisotropy of mechanical properties, and the introduction of the calcium phosphate particles results in some increase in the mechanical characteristics of the polymer matrices. High-temperature heating (up to 700°C) of nanocomposites leads to burning out of the polymer matrix and formation of porous calcium hydroxyapatite residues consisting of nanoparticles with different morphology depending on the initial porous structure of polymer (from needle-shaped crystals with a length of 100–150 nm and about 10 nm in diameter to spheres with a diameter of 50–90 nm). The results obtained are relevant for the directional regulation of the structure and properties of bioactive substances and creation of modern materials for biomedical use.
AbstractList	An alternative method for production of hybrid organic–inorganic nanocomposites based on porous polyolefin films (isotactic polypropylene, high density polyethylene), deformed via crazing mechanism in physically active media, and calcium phosphates is proposed. Film composite materials of different structure and containing 10–25 wt % of filler are obtained. Particles of calcium hydroxyapatite with a diameter of 15–50 nm are formed in these films at once in the pores of the polymer matrices with the development of a layer, the morphology of which is determined by the structure of the original porous films, and its parameters can be controlled by the reaction conditions. It is found that the composites obtained are characterized by anisotropy of mechanical properties, and the introduction of the calcium phosphate particles results in some increase in the mechanical characteristics of the polymer matrices. High-temperature heating (up to 700°C) of nanocomposites leads to burning out of the polymer matrix and formation of porous calcium hydroxyapatite residues consisting of nanoparticles with different morphology depending on the initial porous structure of polymer (from needle-shaped crystals with a length of 100–150 nm and about 10 nm in diameter to spheres with a diameter of 50–90 nm). The results obtained are relevant for the directional regulation of the structure and properties of bioactive substances and creation of modern materials for biomedical use.
Author	Moskvina, M. A. Volynskii, A. L. Grabovenko, F. I. Nikonorova, N. I. Trofimchuk, E. S.
Author_xml	– sequence: 1 givenname: M. A. surname: Moskvina fullname: Moskvina, M. A. email: moskvina203@yandex.ru organization: Department of Chemistry, Moscow State University – sequence: 2 givenname: E. S. surname: Trofimchuk fullname: Trofimchuk, E. S. email: elena_trofimchuk@mail.ru organization: Department of Chemistry, Moscow State University – sequence: 3 givenname: F. I. surname: Grabovenko fullname: Grabovenko, F. I. email: grabovenko.f@rambler.ru organization: Department of Chemistry, Moscow State University – sequence: 4 givenname: N. I. surname: Nikonorova fullname: Nikonorova, N. I. email: nni@genebee.msu.ru organization: Department of Chemistry, Moscow State University – sequence: 5 givenname: A. L. surname: Volynskii fullname: Volynskii, A. L. email: volynskii@mail.ru organization: Department of Chemistry, Moscow State University
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SubjectTerms	Anisotropy Biomedical materials Calcium phosphates Chemistry Chemistry and Materials Science Composite materials Crazing Crystal structure High density polyethylenes High temperature Hydroxyapatite Industrial Chemistry/Chemical Engineering Inorganic Chemistry Materials for Ensuring Human Vital Activity and Environmental Protection Materials Science Mechanical properties Morphology Nanocomposites Nanoparticles Polymers Polyolefins Porous media
Title	Template Synthesis of Calcium Phosphates in Nanoporous Polyolefin Films Obtained via Crazing Mechanism
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