Publication detail

Bio-mechanochemical synthesis of antibacterially active nanocomposite based on Ag nanoparticles, eggshell waste and Thymus serpyllum, L. plant

BALÁŽ, M. CASAS LUNA, M. REMEŠOVÁ, M. ČELKO, L. TKÁČIKOVÁ, Ľ. KOVÁČOVÁ, M. SHPOTYUK, Y.

Original Title

Bio-mechanochemical synthesis of antibacterially active nanocomposite based on Ag nanoparticles, eggshell waste and Thymus serpyllum, L. plant

Type

abstract

Language

English

Original Abstract

Bio-mechanochemical synthesis as a one-step solid-state methodology represents an efficient alternative to classical synthetics pathways to produce silver nanoparticles. High-energy planetary ball milling of silver nitrate as Ag precurosor and two natural materials (namely eggshell waste and Thymus serpyllum, L. plant) as reducing agents, was conducted to produce antibacterially active nanocomposite containing Ag nanoparticles. Taguchi design has been used to optimize the process in terms of AgNO3 mass, eggshell-to-plat mass ratio and millig time. The as-received powders were washed with distilled water and the content of Ag and Ca in solids both before and after washing was analysed by means of atomic absorption spectrometry. The product were characterized by XRD and SEM and their antibacterial activity was evaluated.

Keywords

bio-mechanochemical synthsis; Ag nanoparticles; ball milling

Authors

BALÁŽ, M.; CASAS LUNA, M.; REMEŠOVÁ, M.; ČELKO, L.; TKÁČIKOVÁ, Ľ.; KOVÁČOVÁ, M.; SHPOTYUK, Y.

Released

25. 8. 2021

Publisher

International Science and Innovation cooperation

Location

Lviv, Ukaine

ISBN

978-966-97587-3-6

Book

Nanotechnology and Nanomaterials 2021

Edition

1

Pages from

478

Pages to

478

Pages count

1

URL

BibTex

@misc{BUT176282,
  author="BALÁŽ, M. and CASAS LUNA, M. and REMEŠOVÁ, M. and ČELKO, L. and TKÁČIKOVÁ, Ľ. and KOVÁČOVÁ, M. and SHPOTYUK, Y.",
  title="Bio-mechanochemical synthesis of antibacterially active nanocomposite based on Ag nanoparticles, eggshell waste and Thymus serpyllum, L. plant",
  booktitle="Nanotechnology and Nanomaterials 2021",
  year="2021",
  series="1",
  pages="478--478",
  publisher="International Science and Innovation cooperation",
  address="Lviv, Ukaine",
  isbn="978-966-97587-3-6",
  url="http://nano-conference.iop.kiev.ua//",
  note="abstract"
}