Anna Carla Ribeiro , Alessandra Marjorie de Oliveira , Laiza Bergamasco Beltran , Alexandre Diório , Grace Anne Vieira Magalhães-Ghiotto , Benício Alves de Abreu Filho , Elizabeth da Costa Neves Fernandes de Almeida Duarte , Rosângela Bergamasco
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The proposed modifications were confirmed by advanced characterization techniques (TEM, SEM, EDX, FTIR, XRD, and ZP). The antibacterial activity assay was conducted using minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). The results demonstrated the advantages of using an inorganic support for carrying biocidal agents. The required amount of Ag NPs, when it was supported onto NZ (NZ-AgNPs), was four times less to exhibit the bactericidal effect against <em>Escherichia coli</em> than Ag NPs on their own since they had the same MBC value (1.56 mg ml<sup>−1</sup>). The observed adsorption behavior corroborates such findings and demonstrates that 0.01 g of the proposed composite achieved 100 % of <em>E. coli</em> removal and 9.85 log reduction. Regarding commercial paint experiments, the NZ-AgNPs successfully demonstrated the potential to inhibit bacterial growth with an inhibition zone (IZ) of 41 mm. 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引用次数: 0
摘要
开发具有高效抗菌特性的先进材料以保护人类健康迫在眉睫。本研究旨在评估天然沸石(NZ)与银纳米粒子(Ag NPs)功能化后对革兰氏阴性菌(即大肠杆菌)的抗菌性能,银纳米粒子是利用油辣木籽提取物通过绿色还原法获得的(NZ-AgNPs)。此外,还对两种应用进行了测试:用于水处理的细菌吸附(即大肠杆菌),以及将其添加到商用涂料中。通过先进的表征技术(TEM、SEM、EDX、傅立叶变换红外光谱、XRD 和 ZP)证实了所建议的改性。使用最低抑菌浓度(MIC)和最低杀菌浓度(MBC)进行了抗菌活性检测。结果表明,使用无机支持物携带杀菌剂具有优势。由于 MBC 值(1.56 毫克毫升-1)相同,因此将 Ag NPs 吸附到 NZ(NZ-AgNPs)上对大肠杆菌的杀菌效果比单独使用 Ag NPs 要低四倍。观察到的吸附行为证实了这些发现,并表明 0.01 克的拟议复合材料对大肠杆菌的去除率达到了 100%,减少了 9.85 个对数值。在商用涂料实验中,NZ-AgNPs 成功证明了其抑制细菌生长的潜力,抑制区(IZ)达到 41 毫米。使用无机载体(如 NZ)来控制杀菌化合物的释放,可以带来经济和环境优势,因为沸石是一种天然材料,而且节省了杀菌剂(即 Ag NPs)的用量,是新一代抗菌添加剂的理想特性。
Antibacterial activity of functionalized natural zeolites (NZ-AgNPs) and its application in bacteriological water treatment and commercial paints
Developing advanced materials with efficient antibacterial properties to guarantee human health protection is urgent. This study aimed to evaluate the antibacterial performance of natural zeolite (NZ) functionalized with silver nanoparticles (Ag NPs), obtained from a green reducing method using Moringa oleifera seed extract (NZ-AgNPs), against a Gram-negative bacteria, namely Escherichia coli (E. coli). Moreover, two applications were tested: bacteria adsorption for water treatment, namely Escherichia coli, and its incorporation in commercial paints. The proposed modifications were confirmed by advanced characterization techniques (TEM, SEM, EDX, FTIR, XRD, and ZP). The antibacterial activity assay was conducted using minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). The results demonstrated the advantages of using an inorganic support for carrying biocidal agents. The required amount of Ag NPs, when it was supported onto NZ (NZ-AgNPs), was four times less to exhibit the bactericidal effect against Escherichia coli than Ag NPs on their own since they had the same MBC value (1.56 mg ml−1). The observed adsorption behavior corroborates such findings and demonstrates that 0.01 g of the proposed composite achieved 100 % of E. coli removal and 9.85 log reduction. Regarding commercial paint experiments, the NZ-AgNPs successfully demonstrated the potential to inhibit bacterial growth with an inhibition zone (IZ) of 41 mm. Using inorganic carriers, as NZ, for controlling the biocidal compound release can bring economic and environmental advantages because zeolite is a natural material and the saved amount of biocidal agent, namely Ag NPs, are desirable features of a new antibacterial additive’s generation.
期刊介绍:
Environmental Nanotechnology, Monitoring and Management is a journal devoted to the publication of peer reviewed original research on environmental nanotechnologies, monitoring studies and management for water, soil , waste and human health samples. Critical review articles, short communications and scientific policy briefs are also welcome. The journal will include all environmental matrices except air. Nanomaterials were suggested as efficient cost-effective and environmental friendly alternative to existing treatment materials, from the standpoints of both resource conservation and environmental remediation. The journal aims to receive papers in the field of nanotechnology covering; Developments of new nanosorbents for: •Groundwater, drinking water and wastewater treatment •Remediation of contaminated sites •Assessment of novel nanotechnologies including sustainability and life cycle implications Monitoring and Management papers should cover the fields of: •Novel analytical methods applied to environmental and health samples •Fate and transport of pollutants in the environment •Case studies covering environmental monitoring and public health •Water and soil prevention and legislation •Industrial and hazardous waste- legislation, characterisation, management practices, minimization, treatment and disposal •Environmental management and remediation