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Physicochemical parameters effect on biosynthesis and properties of copper nanoparticles

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Plant extract obtained from green tea was used for the synthesis of nanoparticles under anaerobic and aerobic conditions at various ratios of the copper solution to the extract used. The smallest nanoparticles were obtained at a ratio of 1:10. The nanoparticles showed the maximum negative value of the zeta potential around pH 6. An increase in the temperature of reaction caused a decrease in the negative zeta potential value. Synthesis under nitrogen atmosphere favours the formation of smaller copper nanoparticles.
Rocznik
Strony
1460--1466
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr., wz.
Twórcy
  • Department of Chemical Engineering, Faculty of Chemistry, Wroclaw University of Science and Technology, Wyb. Wyspianskiego 27, 50-370 Wroclaw, Poland
  • Department of Chemical Engineering, Faculty of Chemistry, Wroclaw University of Science and Technology, Wyb. Wyspianskiego 27, 50-370 Wroclaw, Poland
  • Department of Chemical Engineering, Faculty of Chemistry, Wroclaw University of Science and Technology, Wyb. Wyspianskiego 27, 50-370 Wroclaw, Poland
Bibliografia
  • ASGHAR, A., ZAHIR, E., SHAHID, S., KHAN, M., ASGHAR, M., IQBAL, J., WALKER, G., 2018. Iron, copper and silver nanoparticles: Green synthesis using green and black tea leaves extracts and evaluation of antibacterial, antifungal and aflatoxin B1 adsorption activity. LWT – Food Sci. Technol. 90, 98-107.
  • BRUMBAUGH, A.D., COHEN, K.A., ST. ANGELO, S.K., 2014. Ultrasmall copper nanoparticles synthesized with a plant tea reducing agent. ACS Sustain. Chem. Eng. 2, 1933-1939.
  • DAS, P.R., EUN, J.-B, 2018. A comparative study of ultra-sonication and agitation extraction techniques on bioactive metabolites of green tea extract. Food Chem. 253, 22-24.
  • HASSANIEN, R., HUSEIN, D.Z., AL-HAKKANI, M.F., 2018. Biosynthesis of copper nanoparticles using aqueous Tilia extract: antimicrobial and anticancer activities. Heliyon. 4, Article No e01077.
  • KHANI, R., ROOSTAEI, B., BAGHERZADE, G., MOUDI, M., 2018. Green synthesis of copper nanoparticles by fruit extract of Ziziphus spina-christi (L.) Willd.: Application for adsorption of triphenylmethane dye and antibacterial assay. J. Mol. Liq. 255, 541-549.
  • LI, H., CHEN, Q., ZHAO, J., URMILA, K., 2015. Enhancing the antimicrobial activity of natural extraction using the synthetic ultrasmall metal nanoparticles. Sci. Rep. 5, 11033.
  • MOTT, D., GALKOWSKI, J., WANG, L., LUO, J., ZHONG, C.-J., 2007. Synthesis of size-controlled and shaped copper nanoparticles. Langmuir 23, 5740-5745.
  • MUKHOPADHYAY, R., KAZI, J., DEBNATH, M.C., 2018. Synthesis and characterization of copper nanoparticles stabilized with Quisqualis indica extract: evaluation of its cytotoxicity and apoptosis in B16F10 melanoma cells. Biomed. Pharmacother. 97, 1373-1385.
  • NAGAR, N., DEVRA, V., 2018. Green synthesis and characterization of copper nanoparticles using Azadirachta indica leaves. Mater. Chem. Phys. 213, 44-51.
  • PINTO, R., LUCAS, J., SILVA, F., GIRAO, A.V., OLIVEIRA, F., MARGUES, P., FREIRE, C., 2019. Bio-based synthesis of oxidation resistant copper nanowires using an aqueous plant extract. J. Clean. Prod. 221, 122-131.
  • PRADHAN, S., HEDBERG, J., BLOMBERG, E., WOLD, S., WALLINDER, I.O., 2016. Effect of sonication on particle dispersion, administered dose and metal release of non-functionalized, non-inert metal nanoparticles. J. Nanopart. Res. 18, 285-299.
  • RAJESH, K.M., AJITHA, B., REDDY, Y.A.K., SUNEETHA, Y., REDDY, P.S., 2018. Assisted green synthesis of copper nanoparticles using Syzygium aromaticum bud extract: Physical, optical and antimicrobial properties. Optik. 154, 593- 600.
  • SEBEIA, N., JABLI, M., GHITH, A., 2019. Biological synthesis of copper nanoparticles, using Nerium oleander leaves extract: characterization and study of their interaction with organic dyes. Inorg. Chem. Commun. 105, 36-4
  • SHARMA, P., PANT, S., DAVE, V., TAK, K., SADHU, V., REDDY, K.R., 2019. Green synthesis and characterization of copper nanoparticles by Tinospora cardifolia to produce nature-friendly copper nano-coated fabric and their antimicrobial evaluation. J. Microbiol. Meth. 160, 107-116.
  • SOKMEN, M., ALOMAR, S.Y., ALBAY, C., SERDAR, G., 2017. Microwave assisted production of silver nanoparticles using green tea extracts. J. Alloy. Compd. 725, 190-198.
  • XU, Y.-Q., JI, W.-B., PEIGEN, Y., CHEN, J.-X., WANG, F., YIN, J.-F., 2018. Effect of extraction methods on the chemical components and taste quality of green tea extract. Food Chem. 248, 146-154.
  • ZIKALALA, N., MATSHETSHE, K., PARANI, S., OLUWAFEMI, O.S., 2018. Biosynthesis protocols for colloidal metal oxide nanoparticles. Nano-Structure Nano-Objects. 16, 288-299.
Uwagi
1. The work was financed by a subsidy from the Polish Ministry of Scienceand Higher Education for the Faculty of Chemistry of Wroclaw University of Science and Technology.
2. Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f9c14d8d-ad7b-4f9c-9084-33359168bb25
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