Dual synthesis of Silver and Iron oxide nanoparticles from edible greens Amaranthus Viridis and their in vitro antioxidant activity and antimicrobial studies

V. Kotakadi, Bhulakshmi Kolapalli, Susmila Aparna Gaddam, Sai Gopal Divi Venkata Ramana
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引用次数: 2

Abstract

There is an increasing commercial demand for nanoparticles due to their wide applicability in various areas such as chemistry, catalysis, energy and medicine. Metallic nanoparticles are traditionally synthesized by wet chemical techniques where the chemicals used are quite often toxic and flammable. In the present study, we described a simple, cost effective and environmentally-friendly technique for green synthesis of silver and iron nanoparticles by using the aqueous extract of leafy vegetable Amaranthus viridis as a reducing agent. The silver and Iron nanoparticles (Av-AgNPs, Av-IONPs) were characterized by different spectral methods. The surface Plasmon resonance spectrums of Av-AgNPs, Av-IONPs were recorded at 422nm and 261nm. The Scanning electron microscopy (SEM) analysis reveals that the Av-AgNPs, Av-IONPs are roughly spherical in shape. Energy dispersive absorption spectroscopy (EDAX) of biosynthesized Av-AgNPs, Av-IONPs indicates the reduction of silver ions to elemental silver and iron ions to elemental iron. The particle size analysis of Av-AgNPs and Av-IONPs was carried out by Dynamic light scattering (DLS) method the results reveal that both Av-AgNPs and Av-IONPs were polydispered in nature. The average particle size of Av-AgNPs is 55.8 nm with a polydispered index (PI) of 0.297, similarly the average particle size of Av-IONPs is 80.6 nm with an polydispered index (PI) of 0.469. Zeta-potential of Av-AgNPs was detected at -24.6 mV and Av-IONPs were detected at 28.8 mV, the result reveals that they high stability due their high negative charge and positive charge respectively. The dual synthesized Av-AgNPs, Av-IONPs exhibits excellent antioxidant activity by DPPH, H2O2 and NO methods. DPPH was proven to be the best when compared with the other two methods. The biosynthesized Av-AgNPs, Av-IONPs proved to have very good antimicrobial activity against gram +ve and gram –ve bacteria. when compared with standard antibiotic. There were several reports on green synthesis of metal nanoparticles using various plant parts, but here edible leafy vegetable Amaranthus viridis was used for biosynthesis of both Av-AgNPs and Av-IONPs.
食用绿色苋菜中氧化银和氧化铁纳米颗粒的双重合成及其体外抗氧化和抗菌活性研究
由于纳米颗粒在化学、催化、能源和医学等各个领域的广泛适用性,其商业需求不断增加。金属纳米颗粒传统上是通过湿化学技术合成的,其中使用的化学物质通常是有毒和易燃的。在本研究中,我们描述了一种简单、经济、环保的绿色合成纳米银和铁的技术,该技术以叶菜苋菜水提取物为还原剂。用不同的光谱方法对银和铁纳米粒子(Av-AgNPs、Av-IONPs)进行了表征。在422nm和261nm处记录了Av-AgNPs、Av-IONPs的表面等离子体共振谱。扫描电镜(SEM)分析表明,Av-AgNPs和Av-IONPs的形状大致为球形。生物合成的Av-AgNPs和Av-IONPs的能量色散吸收光谱(EDAX)表明银离子还原为单质银,铁离子还原为单质铁。采用动态光散射(DLS)方法对Av-AgNPs和Av-IONPs的粒径进行了分析,结果表明Av-AgNPs和Av-IONPs在本质上都是多分散的。Av-AgNPs的平均粒径为55.8 nm,多分散指数(PI)为0.297;Av-IONPs的平均粒径为80.6 nm,多分散指数(PI)为0.469。在-24.6 mV和28.8 mV下分别检测到Av-AgNPs和Av-IONPs的ζ电位,结果表明它们分别具有较高的负电荷和正电荷,具有较高的稳定性。通过DPPH、H2O2和NO三种方法合成的Av-AgNPs、Av-IONPs具有良好的抗氧化活性。与其他两种方法相比,DPPH的效果最好。生物合成的Av-AgNPs、Av-IONPs对革兰氏+ve和革兰氏-ve细菌具有良好的抑菌活性。与标准抗生素相比。利用不同植物部位绿色合成金属纳米颗粒的研究已有多篇报道,但本文采用可食用叶类蔬菜苋菜(Amaranthus viridis)生物合成了Av-AgNPs和Av-IONPs。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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