Abstract
Insoluble silver-containing nanocomposites based on 1-vinyl-1,2,4-triazole and acrylonitrile copolymer was synthesized and characterized by scanning electron microscopy, Fourier transform infrared spectroscopy, atomic absorption, X-ray diffraction, and thermogravimetric data analysis. The silver content of the nanocomposites varied from 8.0 to 23.5% (the silver content depends on the ratio of the copolymer-silver salt). Synthesis of silver nanocomposites was carried out by thermal treatment of a polymer complex of copolymer-silver salt without the use of an additional reducing agent. X-ray diffraction was used to control the formation of silver nanoparticles at different temperatures (210°С, 220°С, and 250°С). Synthesis of nanocomposites shows a developed porous structure with a channel diameter in most cases of 1-4 microns. The EPR monitoring of the nanoparticle germination and growth reveals that the generation of the nanocomposites proceeds via a stage of complex formation between the polymeric matrix and silver ions. The synthesized nanocomposites possess paramagnetic properties and show a narrow EPR symmetric signal with the concentration of unpaired electrons of 1020 spin/g, a g-factor 2.0050, and signal width 5-6 Gs. Thermal stability of silver-containing nanocomposites is up to 270-320°C.
Highlights
Creation of new polyfunctional polymeric materials with multifaceted valuable properties is a hot research topic due to ever-increasing demand for the development of innovation technologies
Among the most prospective classes of polymeric compounds are the polymers containing nitrogen heterocyclic fragments, which ensure a variety of valuable properties such as a high lyophilicity, ability of complex formation and quaternization, chemical and thermal stability, and biocompatibility [1,2,3]
Acrylonitrile-derived polymers possess excellent performance characteristics and gain widespread acceptance in industry. Fibers on their basis show high strength, thermal stability upon long temperature heating, light resistance, and low heat conductivity that allows employing in mechanical engineering, textile, aerospace, and pharmaceutical industries [4, 5]
Summary
Creation of new polyfunctional polymeric materials with multifaceted valuable properties is a hot research topic due to ever-increasing demand for the development of innovation technologies. Among the most prospective classes of polymeric compounds are the polymers containing nitrogen heterocyclic fragments, which ensure a variety of valuable properties such as a high lyophilicity, ability of complex formation and quaternization, chemical and thermal stability, and biocompatibility [1,2,3]. Polymers of such a type are of a particular interest for the development of biologically active and hi-tech materials. Polymeric nanocomposites containing silver nanoparticles are promising building blocks for medicine and optoelectronic materials, owing to unique properties of silver in a nanosized state and polyfunctional nature of the polymeric matrix [6,7,8,9,10,11,12]
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