Call for Paper: Special Issue "Semiconducting polymers for electronic applications"
2023-06-05
Chemical Mesoscopics Notions in the Explanation of Polymeric Materials Modification Mechanism with Participation of Metal Carbon Mesocomposites
Authors
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V. I. Kodolov
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia; M.T. Kalashnikov Izhevsk State Technical University, Izhevsk, Russia
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V. V. Kodolova-Chukhontseva
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia; Institute of Macromolecular Compounds, Russian Academy of Sciences, St Petersburg, Russia
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I. N. Shabanova
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia;Udmurt Federal Research Centre, Russian Academy of Sciences, Izhevsk, Russia
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N. S. Terebova
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia;Udmurt Federal Research Centre, Russian Academy of Sciences, Izhevsk, Russia
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Yu. V. Pershin
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia; M.T. Kalashnikov Izhevsk State Technical University, Izhevsk, Russia
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R. V. Mustakimov
Basic Research - High Educational Centre of Chemical Physics & Mesoscopics, UD, RAS, Izhevsk, Russia; M.T. Kalashnikov Izhevsk State Technical University, Izhevsk, Russia
DOI:
https://doi.org/10.30564/opmr.v2i2.2587Abstract
The paper is dedicated to the consideration of the chemical mesoscopics notions application for the explanation of polymeric materials modification mechanism by the metal carbon mesoscopic composites. The main peculiarities of these nanosized particles are following: a) the presence of unpaired electrons on the carbon cover; b) the structure of carbon cover consists from poly acetylene and carbine fragments; c) the atomic magnetic moment of inner metal is equaled to more than 1,3 μB. The metal carbon mesocomposites activity depends on the medium and conditions influence because of the possible changes of the phase coherency and quantization of negative charges.
Keywords:
Chemical mesoscopics, Quantization, Phase coherency, X ray Photoelectron spectra, IR spectra, AFM images, Metal carbon mesocomposites, Modification, Self organizationReferences
[1] Kodolov V.I., Kodolova, Chukhontseva V.V. Fundamentals of Chemical Mesoscopics. - Monograph. - Izhevsk: Publisher - M.T. Kalashnikov Izhevsk State Technical University, 2019: 218.
[2] Shabanova I.N., Kodolov V.I., Terebova N.S., Trineeva V.V. X ray electro spectroscopy in investigation of metal/carbon nanosystems and nanostructured materials. Izhevsk-Moscow: Publ. “Udmurt University”, 2012: 252.
[3] Kodolov V.I., Trineeva V.V. Fundamental definitions for domain of nanostrustures and metal/carbon nanocomposites in Book: Nanostructure, nanosystems and nanostructured materials. Theory, production and development (Pp. 1-42) Toronto, Canada - New Jersey, USA: Apple Academic Press, 2013: 559.
[4] Kodolov V.I., Akhmetshina L.F., Chashkin M.A. et al. The functionalization of metal or carbon nanocomposites or the introduction of functional groups in metal/carbon nanocomposites. Ibid, 2013: 147- 175.
[5] Shabanova I.N., Terebova N.S. Kodolov V.I. et al. The investigation of metal or carbon nanocomposites electron structure by X ray photoelectron spectroscopy. Ibid, 2013: 177-230.
[6] Kodolov V.I., Khokhriakov N.V., Trineeva V.V. et al. Computation modeling of nanocomposites action on the different media and on the composition modification processes by metal/carbon nanocomposites. Ibid, 2013: 231-286.
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[8] Kodolov V.I., Trineeva V.V. Theory of modification of polymeric materials by super small quantities of metal/carbon nanocomposites.// Chemical Physics & Mesoscopy, 2013, 15(3): 351 - 363.
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[10] Akhmetshina L.F., Lebedeva G.A., Kodolov V.I. Phosphorus containing metal/carbon nanocomposites and their application for the modification of intumescent fireproof coatings. // Journal of Characterization and Development of Novel Materials, 2012, 4(4): 451-468.
[11] Chashkin M.A. Peculiarities of modification by metal/carbon nanocomposites for cold hardened epoxy compositions and the investigation of properties of polymeric compositions obtained. Thesis of cand. diss. Perm: PNSPU, 2012: 17.
[12] Patent 2337062 Russia Technique of obtaining carbon nanostructures from organic compounds and metal containing substances. Kodolov V.I., Kodolova V.V. (Trineeva), Semakina N.V., Yakovlev G.I., Volkova E.G. et al; declared on 28.08.2006, published on 27.10.2008.
[13] Kodolov V.I., Trineeva V.V., Kovyazina O.A., Vasilchenko Yu. M. Production and application of metal/carbon nanocomposites. In book “The problems of nanochemistry for the creation of new materials”. Torun, Poland: IEPMD, 2012: 23-36.
[14] Kodolov V.I., Khokhriakov N.V., Trineeva V.V., Blagodatskikh I.I. Activity of nanostructures and its display in nanoreactors of polymeric matrixes and in active media. Chem.Phys.& Mesoscopy, 2008, 10(4): 448-460.
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[16] Nikolaeva О.А., Kodolov V.I., Zakharova G.S. et al. Method of obtaining carbon-metal-containing nanostructures. Patent of the RF 2225835, registered on 20.03.2004.
[17] Kodolov V.I., Trineeva V.V. The metal/carbon nanocomposites influence mechanisms on media and compositions. - In Book “Nanostructures, nanomaterials and nanotechnologies to nanoindustry” - Toronto, New Jersey: Apple Academic Press, 2015: 171- 185.
[18] Shabanova I.N., Kodolov V.I., Terebova N.S. et al. X-Ray photoelectron study of the influence of the amount of carbon nickel containing nanostructures on the degree of the poly methyl metacrylate modification. In Book “Multifunctional materials and modeling”, Canada, USA: AAP, 2016: 211-218.
[19] Kodolov V.I., Trineeva V.V. Self organization in processes under action of super small quantities of metal/carbon nanocomposites. Review on investigation results. In Book “Multifunctional materials and modeling”. Canada-USA: AAP, 2016: 263-331+343.
[20] Kodolov V.I., Trineeva V.V., Pershin Yu.V. et al. Method of metal carbon nanocomposites obtaining from metal oxides and polyvinyl alcohol. Pat. RU 2018122 001, 2020.
[21] Mustakimov R.V., Kodolov V.I., Shabanova I.N., Terebova N.S. Modification of copper carbon nanocomposites with the using of Ammonium Polyphosphate for the application as modifiers of epoxy resins. Chemical Physics & Mesoscopics, 2017, 19(1): 50- 57.
[22] Kodolov V.I., Trineeva V.V., Kopylova A.A et al. Mechanochemical modification of metal carbon nanocomposites. Chemical Physics & Mesoscopics, 2017, 19(4): 569-580.
[23] Kodolov V.I., Trineeva V.V., Terebova N.S. et al. The change of electron structure and magnetic characteristics of modified copper carbon na nocomposites. Chemical Physics & Mesoscopics, 2018, 20(1): 72-79.
[24] Karavaeva N.M., Pershin Yu.V., Kodolov V.I. et al. Change of morphology and swelling of cured epoxy compositions upon their modification with minute quantities. Pol. Sci., ser. D., 2019, 12(2): 179 - 181.
[25] Kodolov V.I., Semakina N.V., Trineeva V.V. Introduction in science about nanomaterials. Monograph. Izhevsk: Publisher. M.T. Kalashnikov Izhevsk State Technical University, 2018: 476.
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How to Cite
Kodolov, V. I., Kodolova-Chukhontseva, V. V., Shabanova, I. N., Terebova, N. S., Pershin, Y. V., & Mustakimov, R. V. (2021). Chemical Mesoscopics Notions in the Explanation of Polymeric Materials Modification Mechanism with Participation of Metal Carbon Mesocomposites. Organic Polymer Material Research, 2(2), 8–12. https://doi.org/10.30564/opmr.v2i2.2587
Issue
Article Type
Review
