Improved antimicrobial and antibiofilm efficacy of adaptable BaTi2Fe4O11−(x)NiFe2O4 nanoceramics: investigating microstructural and spectroscopic analysis

IF 2.8 Q2 MULTIDISCIPLINARY SCIENCES SN Applied Sciences Pub Date : 2023-11-08 DOI:10.1007/s42452-023-05547-w
Ali B. Abou Hammad, Bahaa A. Hemdan, A. M. Mansour, Amany M. El Nahrawy
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Abstract

In the pursuit of multifunctional applications, researchers face a crucial challenge in creating an efficient and economically viable perovskite-ferrite nanomaterial. In response to this challenge, multifunctional (1−x)BaTi2Fe4O11−(x)NiFe2O4 (BTF−xNFO) nanoceramics, where (x = 0.1–0.7), were successfully synthesized using the sol-gel method at a temperature of 550 °C. The XRD and FTIR were used to identify the crystal and chemical structure of the multifunctional nanocomposites. The XRD analysis confirms the emergence of a multiphase structure, with iron barium titanate adopting a hexagonal crystalline structure and nickel ferrite assuming a cubic crystalline arrangement. Moreover, the relative dielectric permittivity showcases frequency-dependent tendencies, showcasing a pronounced decline as the frequency increases. The obtained results highlighted the remarkable antimicrobial and antibiofilm potentials of BTF-7NF across all tested microbes. The study assessed the minimum inhibitory and biocidal concentrations of a specific nanocomposite. In terms of its antibiofilm properties, it was found that a concentration of 200 µg/ml of this nanocomposite (BTF-7NF) effectively eliminated biofilm formation.These findings strongly suggest BTF-7NF as a promising alternative antibacterial agent, capable of preventing harmful bacterial biofilm formation at exceptionally low concentrations.
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适应性BaTi2Fe4O11−(x)NiFe2O4纳米陶瓷的抗菌和抗菌膜效果:微观结构和光谱分析研究
在追求多功能应用的过程中,研究人员面临着创造一种高效且经济可行的钙钛矿-铁氧体纳米材料的关键挑战。为了应对这一挑战,在550°C的温度下,采用溶胶-凝胶法成功合成了多功能(1−x)BaTi2Fe4O11−(x)NiFe2O4 (BTF−xNFO)纳米陶瓷,其中(x = 0.1-0.7)。利用XRD和FTIR对复合材料的晶体结构和化学结构进行了表征。XRD分析证实了多相结构的出现,钛酸钡铁呈六方晶型结构,铁酸镍呈立方晶型结构。此外,相对介电常数显示出频率依赖的趋势,随着频率的增加,显示出明显的下降。所得结果突出了BTF-7NF在所有测试微生物中的显著抗菌和抗菌膜潜力。该研究评估了特定纳米复合材料的最低抑菌和杀生物浓度。在抗生物膜性能方面,发现浓度为200µg/ml的纳米复合材料(BTF-7NF)可以有效地消除生物膜的形成。这些发现强烈表明BTF-7NF是一种有前途的替代抗菌剂,能够在极低浓度下防止有害细菌生物膜的形成。
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来源期刊
SN Applied Sciences
SN Applied Sciences MULTIDISCIPLINARY SCIENCES-
自引率
3.80%
发文量
292
审稿时长
22 weeks
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