Biogenic synthesis of zinc oxide nanoparticles using leaves extract of Camellia sinensis for photocatalytic and biological applications

IF 0.9 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
R. Sattar, M. Rasool, R. Qadir, A. Siddique, M. Irfan, I. Saba, M. T. Akhtar, M. Rehman, M. Mustaqeem
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引用次数: 3

Abstract

Nanoparticles have attracted considerable attention of researchers due to their diverse properties in the fields of catalysis, energy devices, wound healing and drug delivery systems . Synthesis of nanoparticles using plants and microbial extract is a green approach due to easy handling, rapidity and cost-effectiveness. This article reported a simple and green method of zinc oxide nanoparticles (ZnO-NPs) synthesis using Camellia sinensis leaves extract as reducing agent. State-of-the-art techniques were utilized for the characterization and measure the potential applications of ZnO-NPs. FTIR and SEM analysis were performed to confirm the nature of bonding and morphology of NPs. XRD analysis confirmed the hexagonal wurtzite structure and crystallite size (34 nm) of ZnONPs. EDX analysis was performed to check the purity of NPs. Energy band gap of valence band and conduction band was found 3.278 eV using UV/Visible spectrophotometry. Purified ZnO-NPs were utilized to determine the photocatalytic potential for degradation of hazardous dye (methylene blue) at λmax of 668 nm under irradiation of sunlight. The results indicated ∼92% photodecomposition of dye after 110 min of sunlight irradiation. Moreover, ZnO-NPs also revealed the antibacterial potential, having better inhibition power against gram-negative bacterial strains.
利用山茶叶提取物生物合成氧化锌纳米颗粒用于光催化和生物应用
纳米颗粒由于其在催化、能量装置、伤口愈合和药物递送系统等领域的多样性而引起了研究人员的广泛关注。使用植物和微生物提取物合成纳米颗粒是一种绿色方法,因为它易于处理、快速且成本效益高。本文报道了一种以山茶叶提取物为还原剂合成氧化锌纳米颗粒的简单绿色方法。利用最先进的技术来表征和测量ZnO NP的潜在应用。进行FTIR和SEM分析以确认NP的结合性质和形态。XRD分析证实了ZnONPs的六方纤锌矿结构和晶粒尺寸(34nm)。进行EDX分析以检查NP的纯度。用紫外可见分光光度法测得价带和导带的能带隙为3.278eV。利用纯化的ZnO NPs测定了在阳光照射下,在668nm的λmax下降解危险染料(亚甲基蓝)的光催化潜力。结果表明,在110分钟的阳光照射后,染料的光分解率为~92%。此外,ZnO纳米粒子还显示出抗菌潜力,对革兰氏阴性菌具有更好的抑制能力。
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来源期刊
Journal of Optoelectronic and Biomedical Materials
Journal of Optoelectronic and Biomedical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
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