Plant mediated synthesis method of copper oxide nanoparticles

Rónavári Andrea and Molnár Anita and Papp Judit and Kónya Zoltán: Plant mediated synthesis method of copper oxide nanoparticles.

[thumbnail of proceedings_of_isaep_2022_301-304.pdf]
Cikk, tanulmány, mű

Download (900kB) | Preview


As copper oxide nanoparticles (CuO NP) due to their unique electric, thermal, mechanical, catalytic and magnetic properties, are widely used in various fields such as agricultural, environmental, industrial, and medical. Thus, their large-scale economical production needs to be developed. In the implementation of nanotechnological syntheses, the applications of energy-, time-, and cost-effective synthesis processes by recycling environmentally friendly plant waste material are playing an increasing role. These methods can be easily applied on an industrial scale and are also of great importance in waste recycling. In this regard, the aim of our research was the production of copper oxide nanoparticles using the extracts of several plants (for example green tea, Virginia creeper and coffee arabica). The properties of the obtained particles, such as size and crystal structure, were determined and compared to the chemically synthesized particles. The applicability of different plant extracts during the CuO nanoparticle synthesis were established.

Item Type: Conference or Workshop Item
Journal or Publication Title: Proceedings of the International Symposium on Analytical and Environmental Problems
Date: 2022
Volume: 28
ISBN: 978-963-306-904-2
Page Range: pp. 301-304
Language: English
Place of Publication: Szeged
Event Title: 28th International Symposium on Analytical and Environmental Problems
Event Type: Conference
Event Location: Szeged
Event Dates: 2022. november 14-15.
Related URLs:
Uncontrolled Keywords: Környezetkémia, Növénykémia
Additional Information: Bibliogr.: 304. p. ; ill. ; összefoglalás angol nyelven
Subjects: 01. Natural sciences
01. Natural sciences > 01.04. Chemical sciences
Date Deposited: 2023. Mar. 23. 11:45
Last Modified: 2023. Mar. 23. 11:45

Actions (login required)

View Item View Item