Effect of Mg doping on morphology, photocatalytic activity and related biological properties of Zn1-xMgxO nanoparticles
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Date
2020Author
Yalçın, BestenurAkcan, Doğan
Yalçın, İbrahim Ertuğrul
Alphan, Mehmet Can
Şentürk, Kenan
Özyiğit, İbrahim İlker
Arda, Lütfi
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The objective of this study is to synthesize ZnO and Mg doped ZnO (Zn 1−x Mgx O) nanoparticles via
the sol-gel method, and characterize their structures and to investigate their biological properties such as antibacterial
activity and hemolytic potential.Nanoparticles (NPs) were synthesized by the sol-gel method using zinc acetate dihydrate
(Zn(CH3 COO) 2 .2H2 O) and magnesium acetate tetrahydrate (Mg(CH3 COO) 2 .4H2 O) as precursors. Methanol and
monoethanolamine were used as solvent and sol stabilizer, respectively. Structural and morphological characterizations
of Zn 1−x Mgx O nanoparticles were studied by using XRD and SEM-EDX, respectively. Photocatalytic activities of ZnO
and selected Mg-doped ZnO (Zn 1−x Mgx O) nanoparticles were investigated by degradation of methylene blue (MeB).
Results indicated that Mg doping (both 10% and 30%) to the ZnO nanoparticles enhanced the photocatalytic activity and
a little amount of Zn 0.90 Mg 0.10 O photocatalyst (1.0 mg/mL) degraded MeB with 99% efficiency after 24 h of irradiation
under ambient visible light. Antibacterial activity of nanoparticles versus Escherichia coli (E. coli) was determined by the
standard plate count method. Hemolytic activities of the NPs were studied by hemolysis tests using human erythrocytes.
XRD data proved that the average particle size of nanoparticles was around 30 nm. Moreover, the XRD results indicated
that the patterns of Mg doped ZnO nanoparticles related to ZnO hexagonal wurtzite structure had no secondary phase
for x ≤ 0.2 concentration. For 0 ≤ x ≤ 0.02, NPs showed a concentration dependent antibacterial activity against E.
coli. While Zn 0.90 Mg 0.10 O totally inhibited the growth of E. coli, upper and lower dopant concentrations did not show
antibacterial activity.
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