利用 Hylocereus costaricensis 茎提取物以生态友好方式合成 Ag/ZnO 双金属纳米粒子并增强其抗菌作用

Joel Xaviour, S. Sreelekshmi, Jebin Joseph, S. Alfiya Fathima and T. Sajini
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引用次数: 0

摘要

本研究提出了一种利用 Hylocereus costaricensis(HC)茎提取物和微波辐照生成双金属银和氧化锌纳米粒子(Ag/ZnO-NPs)的新方法。在合成过程中,分别制备了银和氧化锌纳米粒子,然后将它们直接混合生成双金属 Ag/ZnO-NPs。利用各种分析方法对所形成的纳米粒子进行了全面的表征,以明确其结构、形态和组织特征。然后采用传统的琼脂井扩散技术评估 Ag/ZnO 双金属纳米粒子对金黄色葡萄球菌和大肠杆菌(两种最常见的人类致病菌)的抗菌活性。表征分析表明,成功合成的 Ag/ZnO 双金属纳米粒子具有团簇状球形合金型形态,平均流体力学直径为 281.7 nm,直接带隙为 2.90 eV。抗菌结果表明,双金属Ag/ZnO-NPs具有稳固的组合抗菌活性,凸显了其作为有效的可再生资源抗菌物质的能力。这项研究通过增强双金属纳米粒子及其在生物医学领域的应用,为更深入地研究这一课题打开了大门。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Eco-friendly synthesis and enhanced antibacterial action of bimetallic Ag/ZnO nanoparticles using Hylocereus costaricensis stem extract

Eco-friendly synthesis and enhanced antibacterial action of bimetallic Ag/ZnO nanoparticles using Hylocereus costaricensis stem extract

This work presents a novel method for generating bimetallic silver and zinc oxide nanoparticles (Ag/ZnO-NPs) using Hylocereus costaricensis (HC) stem extract and microwave irradiation. Silver and zinc oxide nanoparticles were prepared separately during the synthesis process, and they were directly mixed to produce bimetallic Ag/ZnO-NPs. A thorough characterisation was conducted utilising various analytical methods to clarify the formed nanoparticles' structural, morphological and constitutional characteristics. The conventional agar well diffusion technique was then used to assess the Ag/ZnO bimetallic nanoparticles' antibacterial activity towards Staphylococcus aureus and Escherichia coli, the two most common human pathogenic bacteria. The characterisation analysis showed the successful synthesis of bimetallic Ag/ZnO-NPs with a cluster-like spherical alloy-type morphology with an average hydrodynamic diameter of 281.7 nm and a direct band gap of 2.90 eV. The antibacterial results revealed that bimetallic Ag/ZnO-NPs have a solid combinatorial antibacterial activity, underscoring their abilities to be effective antibacterial substances from renewable sources. This study opens the door for more in-depth investigation into this topic by enhancing bimetallic nanoparticles and their utilisation in the biomedical field.

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