G. Shweta, L. Naik, Rangappa B. Pujar, Shridhar N. Matad, D.M. Chetan, Sahebagouda Jambaladinni
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引用次数: 0
摘要
利用蔗糖作为燃料,通过溶液燃烧法获得了构型为 Ni0.45Zn0.55-xMxFe2O4(其中 x = 0.0、0.1、0.2 和 0.3,M = 钴、铜、镁)的镍锌纳米铁氧体。利用 TEM 对所获得的纳米铁氧体的结构特性进行了研究,并通过 Kirby-Bauer 盘扩散敏感性试验(又称琼脂扩散法)对其抗菌和抗真菌特性进行了研究。测试了合成的纳米铁氧体对革兰氏阴性(Escherichiacoli)和革兰氏阳性(Bacillus cerus)细菌菌株的抗菌活性。此外,还评估了它们对黑曲霉的抗真菌活性。样品 Ni0.45 Zn0.45Cu0.1Fe2O4 对陶瓷芽孢杆菌的抗菌活性最高。Ni0.45 Zn0.35Co0.2Fe2O4 的抗真菌活性最高。
Cobalt, Copper and Magnesium Doped Nickel Zinc Nanoferrites by Solution-Combustion Method: Structural, Antibacterial and Antifungal Properties
The nickel zinc nanoferrites with configurationNi0.45Zn0.55–xMxFe2O4were achieved where x = 0.0, 0.1, 0.2 and 0.3 and M = Cobalt, Copper, Magnesiumusing solution-combustion method by availing sucrose as a fuel. The procured nanoferrites were investigated forstructural properties using TEM, antibacterial and antifungal propertiesby Kirby-Bauer Disk Diffusion Susceptibility Test also calledas Agar diffusion method. The synthesized nanoferrites were tested for their antibacterial activities against Gram negative (Escherichiacoli) and Gram positive (Bacillus cerus) bacterial strains. Also, investigation was evaluated for their antifungal activity against Aspergillus niger. Against Bacillus cerus, sample Ni0.45 Zn0.45Cu0.1Fe2O4 showed maximum antibacterial activity. The maximum antifungal activity was observed for Ni0.45 Zn0.35Co0.2Fe2O4.
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