Physicochemical Properties and Antibacterial Activity of Biosynthesized Silver Nanoparticles from Melothria pendula Linn. (Pipinong-Gubat) Leaf Extract

Asian Journal of Chemical Sciences Pub Date : 2022-06-30 DOI:10.9734/ajocs/2022/v12i119134

Nathaniel A. Dianito, Flyndon Mark S. Dagalea, M. G. Vicencio, K. M. C. Lim

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引用次数: 1

Abstract

Nanoparticles have all kinds of unexpected benefits in different fields and industry. For this reason, the demand for nanoparticles is increasing at overwhelming rate the increased demand resulted to increase in production. Conventional method in synthesizing nanoparticles have been reported to be capital intensive, inefficient in materials and energy use. Because of this, researchers are leaning to biological method in synthesizing NPs. In this study, aqueous leaf extract of Melothria pendula Linn. (Pipinong-gubat) was used to biosynthesized silver nanoparticles (AgNPs) and the biosynthesized nanoparticle underwent physicochemical and antibacterial analysis. Physical and chemical properties of leaf extract have been determine having an black color, pleasant odor, boiling point of 94.3°C, density of 0.94g/mL, pH of 8 slightly basic and polar in both water and ethanol and non-polar in hexane. Secondary metabolites that are present in leaf extract are alkaloids, saponins and terpenoids. Having a coloration of yellowish-brown, the synthesized AgNPs was characterized using UV-VIS Spectrophotometer that the resulting peak confirm the formation of AgNps, Fourier Transform Infrared (FTIR) determined the functional group that was present and Scanning Electron Microscopy (SEM) determined the surface morphology that shows AgNps in agglomeration state at a magnification of (a) 1000 k (b) 2000 k (c) 3000 k (d) 4000 k and a diameter of (a) 100 um (b) 30 um (c) 30 um (d) 20 um. In terms with its antibacterial result, it was found out to be effective against S. aureus and E. coli. It has a clear zone of inhibition of 5mm in S. aureus and 3.67mm in E.coli. Furthermore, statistical treatment shows that there is no significant in antibacterial activity between positive control (Chloramphenicol) and sample (AgNPs). This implies that the sample could be a substitute to the market as antibacterial agent against S. aureus and E. coli.

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生物合成银纳米粒子的理化性质及抗菌活性研究。叶提取物

纳米粒子在不同的领域和工业中有着各种意想不到的好处。由于这个原因，对纳米颗粒的需求正在以压倒性的速度增长，需求的增加导致了产量的增加。据报道，传统的纳米颗粒合成方法是资本密集型的，在材料和能源使用方面效率低下。正因为如此，研究人员倾向于用生物学方法合成NPs。本研究以山葵叶水提物为主要成分。(Pipinong-gubat)用于生物合成银纳米粒子(AgNPs)，并对合成的银纳米粒子进行了理化和抗菌分析。测定了叶提取物的理化性质，其颜色为黑色，气味宜人，沸点为94.3℃，密度为0.94g/mL, pH为8，在水和乙醇中均为微碱性极性，在己烷中为非极性。叶提取物的次生代谢产物有生物碱、皂苷和萜类。黄棕的颜色后,合成AgNPs特点是使用紫外可见分光光度计,由此产生的峰值确定AgNPs的形成,傅里叶变换红外(FTIR)确定存在的官能团和扫描电子显微镜(SEM)决定了表面形态的放大显示AgNPs聚集状态(a) 1000 k (b) 2000 k (c) 4000 k和3000 k (d)直径(a) 100 30嗯嗯(b) (c) 30 20嗯嗯(d)。抑菌效果方面，对金黄色葡萄球菌和大肠杆菌均有较好的抑菌效果。对金黄色葡萄球菌有明显的抑制区，对大肠杆菌有3.67mm的抑制区。此外，统计处理表明，阳性对照(氯霉素)与样品(AgNPs)之间的抗菌活性无显著性差异。这意味着该样品可以替代市场上的金黄色葡萄球菌和大肠杆菌的抗菌剂。

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Asian Journal of Chemical Sciences

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