Baraa U. Hijazi , Marwa Faraj , Rami Mhanna , Mohammad H. El-Dakdouki
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The synthetic procedure was optimized in terms of different parameters, and several analytical techniques were used to thoroughly characterize the prepared nanocomposites including TEM, SEM, EDX, DLS, XRD, FTIR, UV/Vis, photoluminescence, and TGA. The nanoparticles were spherical, monodisperse, colloidally and thermally stable, and crystalline in nature. The efficiency of the biogenic AgNPs as catalysts for the degradation of organic dyes was evaluated against six structurally diverse dyes. These included methylene blue, phenol red, methyl orange, Congo red, orange G and safranin O. Moreover, the applicability of AgNPs as antibacterial agents was tested against <em>K. pneumoniae, S. aureus, S. haemolyticus and E. faecalis</em> where the zones of growth inhibition, MIC and MBC values were determined for each bacterium. 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引用次数: 0
摘要
水体不断受到有机染料和细菌等各种人为污染物的威胁,导致适合饮用和灌溉的淡水匮乏。因此,在将受污染的废水排入水体之前,人们采用了不同的水处理方法。本报告评估了绿色合成的银纳米粒子(AgNPs)在降解有机染料和细菌净化方面的作用。在 AgNPs 的生物合成过程中,使用了 S. costus 根的水提取物作为对环境无害的还原剂。对合成过程中的不同参数进行了优化,并使用多种分析技术对制备的纳米复合材料进行了全面表征,包括 TEM、SEM、EDX、DLS、XRD、FTIR、UV/Vis、光致发光和 TGA。纳米颗粒呈球形,单分散,胶体和热稳定性好,性质为结晶。针对六种结构不同的染料,对生物源 AgNPs 作为催化剂降解有机染料的效率进行了评估。此外,还测试了 AgNPs 作为抗菌剂对肺炎双球菌、金黄色葡萄球菌、溶血性链球菌和粪大肠杆菌的适用性,确定了每种细菌的生长抑制区、MIC 和 MBC 值。总之,生物合成的纳米粒子在有害染料的褪色过程中具有显著的催化作用,并对革兰氏阳性和革兰氏阴性细菌具有明显的抗菌效力。
Biosynthesis of silver nanoparticles as a reliable alternative for the catalytic degradation of organic dyes and antibacterial applications
Water bodies are being threatened continuously by various anthropogenic pollutants such as organic dyes and bacteria which led to scarcity of fresh water suitable for drinking and irrigation. Therefore, different water treatment methods have been implemented before the discharge of contaminated wastewater into water bodies. In this report, green-synthesized silver nanoparticles (AgNPs) were evaluated in the degradation of organic dyes and bacterial decontamination. The S. costus root aqueous extract was used as an environmentally benign reducing agent in the biosynthesis of AgNPs. The synthetic procedure was optimized in terms of different parameters, and several analytical techniques were used to thoroughly characterize the prepared nanocomposites including TEM, SEM, EDX, DLS, XRD, FTIR, UV/Vis, photoluminescence, and TGA. The nanoparticles were spherical, monodisperse, colloidally and thermally stable, and crystalline in nature. The efficiency of the biogenic AgNPs as catalysts for the degradation of organic dyes was evaluated against six structurally diverse dyes. These included methylene blue, phenol red, methyl orange, Congo red, orange G and safranin O. Moreover, the applicability of AgNPs as antibacterial agents was tested against K. pneumoniae, S. aureus, S. haemolyticus and E. faecalis where the zones of growth inhibition, MIC and MBC values were determined for each bacterium. Overall, the biosynthesized nanoparticles were remarkable catalysts in the discoloration of hazardous dyes and displayed notable antibacterial potency against Gram-positive and Gram-negative bacteria.
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