Hybrid Ag-0/Ag2CO3-eggshell-plant nanocomposites for antimicrobial action prepared by bio-mechanochemical synthesis.
About the publication
Record:
BALÁŽ, Matej - CASAS-LUNA, Mariano - AUGUSTINYAK, Adrian - TKÁČIKOVÁ, Ľudmila - SZMUC, Kamil - KOVÁČOVÁ, Mária - ČELKO, Ladislav - SHPOTYUK, Yaroslav. Hybrid Ag-0/Ag2CO3-eggshell-plant nanocomposites for antimicrobial action prepared by bio-mechanochemical synthesis. In: Applied nanoscience. 2022. ISSN 2190-5509, Vol. 12, no. 6 (2022), p. 1899-1916.
(2021: 3.869 - IF, 61 - H-index, 4.288 - IF 5y, 0.505 - SJR, Q2 - SJR Best Q, Q3 - JCR Best Q)
(2021: 3.869 - IF, 61 - H-index, 4.288 - IF 5y, 0.505 - SJR, Q2 - SJR Best Q, Q3 - JCR Best Q)
Year:
2022
Category:
V3 - Scientific output of publication activity from the journal
Output type:
CLA - article
Authors:
BALÁŽ Matej
44 %
CASAS-LUNA Mariano
20 %
AUGUSTINYAK Adrian
12 %
SZMUC Kamil
5 %
KOVÁČOVÁ Mária
5 %
ČELKO Ladislav
3 %
SHPOTYUK Yaroslav
3 %
UVMP share:
8 %
Edition:
Applied nanoscience
Vol. 12, no. 6 (2022), p. 1899-1916
Country of issue:
Germany
ISSN:
2190-5509
Research area:
200 - Veterinary Sciences
Field:
Group of study fields: Agricultural and veterinary sciences
Name of the field of study: veterinary medicine
Scientometrics:
2021: 3.869 - IF, 61 - H-index, 4.288 - IF 5y, 0.505 - SJR, Q2 - SJR Best Q, Q3 - JCR Best Q
Language:
english
Citations:
2023-2023: [1] JEEVANANDAM, Jaison - DANQUAH, Michael K. Phytosynthesized nanoparticles for antimicrobial treatment. In Emerging Phytosynthesized Nanomaterials for Biomedical Applications, 2023-01-01, pp. 145-169. Dostupné na: https://doi.org/10.1016/B978-0-12-824373-2.00003-9.