Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere

Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere

The problem of formation of resistant strains of bacteria contributes to the development of the fields related to nanoparticles that can become the alternatives of antibiotics. The composite zinc oxide based nanoparticles produced by electrical explosion of two twisted Zn/Al, Zn/Ag, Zn/Cu, Zn/Ti wir...

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Main Authors: A.S. Lozhkomoev, S.O. Kazantsev, A.M. Kondranova, A.N. Fomenko, A.V. Pervikov, N.G. Rodkevich, O.V. Bakina
Format: Article
Language:English
Published: Elsevier 2019-12-01
Series:Materials & Design
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127519305374
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spelling doaj-fd7d2a49cdfa41eab88ac511c3a3b6ec2020-11-24T21:58:59ZengElsevierMaterials & Design0264-12752019-12-01183Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphereA.S. Lozhkomoev0S.O. Kazantsev1A.M. Kondranova2A.N. Fomenko3A.V. Pervikov4N.G. Rodkevich5O.V. Bakina6Corresponding author.; Institute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationInstitute of Strength Physics and Materials Science of Siberian Branch of Russian, Tomsk, Russian FederationThe problem of formation of resistant strains of bacteria contributes to the development of the fields related to nanoparticles that can become the alternatives of antibiotics. The composite zinc oxide based nanoparticles produced by electrical explosion of two twisted Zn/Al, Zn/Ag, Zn/Cu, Zn/Ti wires in the oxygen-containing atmosphere have been demonstrated to exhibit more pronounced antibacterial action with regard to Gram-positive MRSA and Gram-negative E. coli as compared to nanoparticles produced in the same conditions by the electrical explosion of single Zn, Al, Cu, Ag and Ti wires. The composite Zn55Ag45/O and Zn55Cu45/O nanoparticles have been shown to possess the most antibacterial activity. The nanoparticles have been established to possess similar size distribution and positive zeta potential. The nanoparticles can consist of a mixture of oxides, or a mixture of oxides and spinel type ZnAl2O4 or Zn2TiO4, as well as of zinc oxide and Ag. Keywords: Electrical explosion of wires, Composite nanoparticles, Metal oxide, Antibacterial activityhttp://www.sciencedirect.com/science/article/pii/S0264127519305374
collection DOAJ
language English
format Article
sources DOAJ
author A.S. Lozhkomoev
S.O. Kazantsev
A.M. Kondranova
A.N. Fomenko
A.V. Pervikov
N.G. Rodkevich
O.V. Bakina
spellingShingle A.S. Lozhkomoev
S.O. Kazantsev
A.M. Kondranova
A.N. Fomenko
A.V. Pervikov
N.G. Rodkevich
O.V. Bakina
Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
Materials & Design
author_facet A.S. Lozhkomoev
S.O. Kazantsev
A.M. Kondranova
A.N. Fomenko
A.V. Pervikov
N.G. Rodkevich
O.V. Bakina
author_sort A.S. Lozhkomoev
title Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
title_short Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
title_full Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
title_fullStr Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
title_full_unstemmed Design of antimicrobial composite nanoparticles ZnxMe(100-x)/O by electrical explosion of two wires in the oxygen-containing atmosphere
title_sort design of antimicrobial composite nanoparticles znxme(100-x)/o by electrical explosion of two wires in the oxygen-containing atmosphere
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2019-12-01
description The problem of formation of resistant strains of bacteria contributes to the development of the fields related to nanoparticles that can become the alternatives of antibiotics. The composite zinc oxide based nanoparticles produced by electrical explosion of two twisted Zn/Al, Zn/Ag, Zn/Cu, Zn/Ti wires in the oxygen-containing atmosphere have been demonstrated to exhibit more pronounced antibacterial action with regard to Gram-positive MRSA and Gram-negative E. coli as compared to nanoparticles produced in the same conditions by the electrical explosion of single Zn, Al, Cu, Ag and Ti wires. The composite Zn55Ag45/O and Zn55Cu45/O nanoparticles have been shown to possess the most antibacterial activity. The nanoparticles have been established to possess similar size distribution and positive zeta potential. The nanoparticles can consist of a mixture of oxides, or a mixture of oxides and spinel type ZnAl2O4 or Zn2TiO4, as well as of zinc oxide and Ag. Keywords: Electrical explosion of wires, Composite nanoparticles, Metal oxide, Antibacterial activity
url http://www.sciencedirect.com/science/article/pii/S0264127519305374
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