Mechanistic studies of the reactions of transition metal ion complexes with biologically relevant molecules

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Mechanistic studies of the reactions of transition metal ion complexes with biologically relevant molecules (en)
Испитивање механизма реакција комплекса јона прелазних метала са биолошки значајним молекулима (sr)
Ispitivanje mehanizma reakcija kompleksa jona prelaznih metala sa biološki značajnim molekulima (sr_RS)
Authors

Publications

Antibacterial activity of metal oxide nanoparticles

Stanić, Vojislav; Tanasković, Slađana

(Elsevier, 2020) 

TY  - CHAP
AU  - Stanić, Vojislav
AU  - Tanasković, Slađana
PY  - 2020
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4372
AB  - Mortality rate caused by multidrug-resistant bacterial infection is reported to be considerably high in the world. This chapter introduces metal oxide nanoparticles (MO-NPs) as antimicrobial agents. It starts by presenting the effect of physicochemical properties of MO-NPs such as: chemical composition, particle size, surface, the shape, concentration, solubility, the generation of reactive oxygen species, on their antibacterial activity. It then explains the mechanisms of antimicrobial activity MO-NPs. By the end of the chapter the nanoformulations of main metal oxides: aluminum, calcium, magnesium, silver, zinc, iron, copper, and titanium are presented. A full discussion of the correlation between metal oxide properties and their mechanisms of action as antimicrobials is included.
PB  - Elsevier
T2  - Nanotoxicity - Prevention and Antibacterial Applications of Nanomaterials
T1  - Antibacterial activity of metal oxide nanoparticles
SP  - 241
EP  - 274
DO  - 10.1016/B978-0-12-819943-5.00011-7
ER  - 
@inbook{
author = "Stanić, Vojislav and Tanasković, Slađana",
year = "2020",
abstract = "Mortality rate caused by multidrug-resistant bacterial infection is reported to be considerably high in the world. This chapter introduces metal oxide nanoparticles (MO-NPs) as antimicrobial agents. It starts by presenting the effect of physicochemical properties of MO-NPs such as: chemical composition, particle size, surface, the shape, concentration, solubility, the generation of reactive oxygen species, on their antibacterial activity. It then explains the mechanisms of antimicrobial activity MO-NPs. By the end of the chapter the nanoformulations of main metal oxides: aluminum, calcium, magnesium, silver, zinc, iron, copper, and titanium are presented. A full discussion of the correlation between metal oxide properties and their mechanisms of action as antimicrobials is included.",
publisher = "Elsevier",
journal = "Nanotoxicity - Prevention and Antibacterial Applications of Nanomaterials",
booktitle = "Antibacterial activity of metal oxide nanoparticles",
pages = "241-274",
doi = "10.1016/B978-0-12-819943-5.00011-7"
}
Stanić, V.,& Tanasković, S.. (2020). Antibacterial activity of metal oxide nanoparticles. in Nanotoxicity - Prevention and Antibacterial Applications of Nanomaterials
Elsevier., 241-274.
https://doi.org/10.1016/B978-0-12-819943-5.00011-7
Stanić V, Tanasković S. Antibacterial activity of metal oxide nanoparticles. in Nanotoxicity - Prevention and Antibacterial Applications of Nanomaterials. 2020;:241-274.
doi:10.1016/B978-0-12-819943-5.00011-7 .
Stanić, Vojislav, Tanasković, Slađana, "Antibacterial activity of metal oxide nanoparticles" in Nanotoxicity - Prevention and Antibacterial Applications of Nanomaterials (2020):241-274,
https://doi.org/10.1016/B978-0-12-819943-5.00011-7 . .
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