@conference{
author = "Milojković, Natalija and Orlic, Marina and Dikić, Jelena and Žunić, Milan and Simović, Bojana and Dapčević, Aleksandra",
year = "2021",
abstract = "Kontaminacija bakterijama je poslednjih godina postala problem na globalnom nivou zbog
čega se javila potreba za novim antibakterijskim agensima. Stabilni titan-
-dioksid i cink-oksid pokazuju antibakterijsku aktivnost te se smatraju pogodnim
materijalima i zbog njihove netoksičnosti i niske cene [1, 2].
Cilj ovog rada bio je dobijanje novog materijala na bazi ZnO i TiO2 sa
antibakterijskim svojstvima. U tu svrhu, titan(IV)-butoksid (25 mol.%) rastvoren je u vodenom
rastvoru cink-acetata (75 mol.%), nakon čega je dodavan amonijak dok
vrednost pH nije iznosila 8,5. Polovina dobijenog rastvora je hidrotermalno tretirana
12 h na 120 °C, zatim sušena 20 h na 100 °C i kalcinisana 1 h na 500 (uzorak H-ZnTi-500) i
800 °C (uzorak H-ZnTi-800). Druga polovina dobijenog rastvora bila je direktno sušena i
kalcinisana pod istim uslovima (uzorci ZnTi-500 i ZnTi-800).
Na osnovu XRD rezultata, fazni sastav i veličina kristalita izračunati su u Powder Cell programu,
dok su parametri jedinične ćelije i dužine veza dobijeni Ritveldovim utačnjavanjem
pomoću FullProf/Winplotr programskog paketa. Termogravimetrijskom analizom nekalcinisanih
uzoraka određena je temperatura kalcinacije. Antibakterijska aktivnost dobijenih prahova ispitana
je prema dva soja bakterija: Gram-pozitivnoj S. aureus ATCC 25923 i Gram-negativnoj E. coli
DSM 498.
Jednofazni kubni Zn2TiO4 (ICSD#162392, prostorna grupa ) dobijen je jedino u slučaju
ZnTi-800, dok je u ostale tri sinteze Zn2TiO4 bio većinska faza. Pored Zn2TiO4, uzorci
H-ZnTi-500 i ZnTi-500 sadržali su 22 i 4 mas.% ZnO (ICSD#26170) redno, dok je u uzorku
H-ZnTi-800 pronađeno 7 mas.% ZnO i 5 mas.% Zn2Ti3O8 (ICSD#083525). Parametar a svih dobijenih
Zn2TiO4 pokazao se nezavisnim od samog procesa sinteze, a dobijene vrednosti su približno
iste: 8,4465(3) za H-ZnTi-500, 8,4604(2) za ZnTi-500, 8,4564(2) za H-ZnTi-800 i 8,4565(2) Å za
ZnTi-800. U strukturi kubnog Zn2TiO4 postoje dva katjonska mesta: tetraedarski koordinirani Zn u
0,0,0, i oktaedarski koordinirani Zn i Ti koji dele položaj 5/8,5/8,5/8. Dužine veza Zn–O i Zn/Ti–
O su takođe nezavisne od uslova sinteze. Na 500 °C dobijeni su nanokristalni Zn2TiO4 (veličina
kristalita iznosila je 26 i 71 nm za H-ZnTi-500 i ZnTi-500, respektivno) dok su mikrokristalni
Zn2TiO4 nastali na 800 °C (veličina kristalita prelazila je 110 nm). Od svih uzoraka, ZnTi-500 je
pokazao najbolju antibakterijsku aktivnost dostignuvši visoki stepen redukcije broja bakterijskih
kolonija: 87,6 % E. coli DSM 498 i 63,4 % S. aureus ATCC 25923. To se može pripisati činjenici
da je u ovom slučaju dobijen gotovo jednofazni Zn2TiO4 sa dovoljno malom veličinom kristalita.
[1] A. Sirelkhatim et al., Nano-Micro Letters, 7 (2015) 219–242.
[2] T. Matsunaga et al., FEMS Microbiology Letters, 29 (1985) 211–214., In recent years bacterial contamination has become a significant problem of the global environment
causing the necessity for novel antibacterial agents. Stable,
non-toxic and low cost zinc oxide and titanium dioxide are considered as suitable
antibacterial materials [1, 2].
The aim of this work was to find a new antibacterial material based on both, ZnO and TiO2.
Therefore, titanium(IV) butoxide (25 mole%) was dissolved in a water solution of zinc acetate (75
mole%) after which the ammonia was added until pH was adjusted to 8.5. Half of the obtained
solution was hydrothermally treated for 12 h at 120 °C, dried for 20 h at 100 °C and then calcined
at 500 (sample H-ZnTi-500) and 800 °C (sample H-ZnTi-800) for 1 h. The other half of obtained
solution was directly dried and calcined under the same conditions (samples ZnTi-500 and
ZnTi-800).
Base on XRD data for obtained powders, the phase composition and crystallite size were calculated
in Powder Cell software while unit cell parameters and bond distances were obtained by
Rietveld refinement using FullProf software in Winplotr environment. TG analysis of uncalcined
samples was used to determine temperature of calcination. Antibacterial properties of obtained
powders were examined towards Gram-positive S. aureus ATCC 25923 and Gram-negative E. coli
DSM 498 bacteria.
The single-phase cubic Zn2TiO4 phase (ICSD#162392, space group ) was
obtained in the case of ZnTi-800 while, for three other samples, the Zn2TiO4 is found to be a predominant
phase. Beside Zn2TiO4 samples H-ZnTi-500 and ZnTi-500 contained 22 and 4 wt.% of
ZnO (ICSD#26170) respectively, while H-ZnTi-800 had 7 wt.% of ZnO and 5 wt.% of Zn2Ti3O8
(ICSD#083525). The a-parameter of all obtained Zn2TiO4 was independent of synthetic procedure
having following values: 8.4465(3) for H-ZnTi-500, 8.4604(2) for ZnTi-500, 8.4564(2) for
H-ZnTi-800 and 8.4565(2) Å for ZnTi-800. Two cation sites can be found in cubic Zn2TiO4: tetrahedrally
coordinated Zn at 0,0,0 and octahedral site at 5/8,5/8,5/8 shared between Zn and Ti. The
Zn–O and Zn/Ti–O bond distances were also independent of synthesis. The nanocrystalline
Zn2TiO4 phases were obtained at 500 °C (crystallite size for H-ZnTi-500 and ZnTi-500 were 26
and 71 nm respectively), and microcrystalline ones at 800 °C (the crystallite size exceeded 110
nm). Among all samples, the ZnTi-500 demonstrated the best antibacterial activity reaching high
reduction in the number of bacteria cells: 87.6 % of E. coli DSM 498 and 63.4 % of S. aureus
ATCC 25923. This could be explained by the fact that almost pure Zn2TiO4 phase was obtained
with sufficiently small crystallites.
[1] A. Sirelkhatim et al., Nano-Micro Letters, 7 (2015) 219–242.
[2] T. Matsunaga et al., FEMS Microbiology Letters, 29 (1985) 211–214.",
publisher = "Српско кристалографско друштво, Београд, Србија; Serbian Crystallographic Society, Belgrade, Serbia",
journal = "27th Conference of the Serbian Crystallographic Society, Kragujevac",
title = "Antibacterial zinc orthotitanate",
pages = "18",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_1992"
}
