生物介导燃烧法合成bi3 +:Mg(1−x) Zr × o4nps的电化学传感器、抗菌和环境评价

Surendra Bs, Gurushantha K, Sampath Chinnam, Vijaya VShanbhag, Kiran T, Chandrasekhar M, Manjula Sn, Shobha G, Ananda Murthy Hc
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引用次数: 0

摘要

本文介绍了一种简便的绿色辅助燃烧法合成Bi3+:Mg(1−x) Zrx O4纳米粒子(BMZ-NPs)的方法,并对其多功能应用进行了评价。PXRD表征了制备的BMZ NPs的结构特征和平均粒径(~ 30 ~ 44)nm。SEM-EDAX表征了BMZ-NPs的表面形貌和化学成分。通过紫外可见光谱技术研究了未掺杂和Bi掺杂的MgZrO4 NPs (0.01 ~ 0.05 mol%)的带隙能(Eg)值在3.86 ~ 2.8 eV之间。对制备的样品进行电化学分析,发现在酸性和碱性电解介质下对扑热息痛药物的化学检测具有良好的传感器活性。结果表明,BMZ-NPs对AO-7具有良好的光降解活性,在紫外可见光照射下90 min降解率为91.4%。此外,利用扩散琼脂技术检测了BMZ NPs对革兰氏+ ve和革兰氏-ve细菌的抑菌活性。获得的区抑制直径表明,BMZ NPs对金黄色葡萄球菌的生长(对2毫米的抗生素链霉素的5.2毫米)比大肠杆菌(对7.7毫米的氨苄西林的5.2毫米)更有效。这些结果证实了BMZ NPs是催化、传感器和光电子器件应用的潜在候选材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electrochemical-sensor, antimicrobial and Environmental Assessments of Bi 3+ :Mg (1− x) Zr x O 4 NPs synthesized by bio-mediated combustion method
The reported research elucidates on a facile Phyllanthus acidus green-assisted solution combustion process developed for the synthesis of Bi3+:Mg(1−x) Zrx O4 nanoparticles (BMZ-NPs) and evaluation of their multifunctional applications. PXRD investigation shows the structural evidences and average-particle size (∼ 30-44) nm of prepared BMZ NPs. SEM-EDAX characterizes the surface-morphology and chemical constituents of BMZ-NPs. The band gap energy (Eg) values of undoped and Bi doped MgZrO4 NPs (0.01-0.05 mol%) were noted between 3.86 to 2.8 eV, investigated by UV-Visible spectral techniques. The electrochemical analysis of prepared samples revealed a good sensor activity towards paracetamol drug chemical detection under both acidic and basic electrolytic media. An excellent photo-degradation activity was noted for BMZ-NPs on AO-7 as model dye and shows 91.4% at 90 min under irradiation of UV Visible-light. Additionally, the antibacterial activity of BMZ NPs against gram + ve and gram -ve bacteria was examined in well diffusion agar technique. The obtained diameter of zone inhibition illustrates BMZ NPs hinders the growth of S. aureus bacteria (5.2 mm against antibiotic streptomycin of 2 mm) much more effectively than E. coli (5.2 mm against ampicillin of 7.7 mm). These results are confirms that the BMZ NPs is an potential candidate for catalytic, sensor and optoelectronic device applications.
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