利用棘皮草植物提取物绿色合成 TiO2 纳米粒子及其在光催化染料降解、4-硝基苯酚还原和抗菌活性方面的潜在应用

IF 3.5 4区 工程技术 Q3 ENERGY & FUELS
Rosaiah Pitcheri, Siva Prasad Mooni, Dhanalakshmi Radhalayam, Maaouni Nora, Soumyendu Roy, Fatimah Ali M. Al-Zahrani, Madhusudana Rao Kummara
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引用次数: 0

摘要

工业废水对人类健康和环境构成重大威胁。为了减少有害化合物,人们开发了许多处理方法。通过绿色合成生产用于废水处理的多功能氧化钛纳米颗粒(TiO2-NPs)是传统方法的理想替代品。本研究报告使用棘树叶(EES)作为有效的生物还原剂,进行 TiO2-NPs 的绿色合成。EES 介导的 TiO2-NPs 合成过程简单、环保,反应时间短、温度低。利用各种光谱和显微技术对合成的纳米粒子进行了表征。紫外-可见分光光度计光谱显示出 289 纳米处的吸光峰和 2.91 eV 的带隙。扫描电镜和 XRD 显示了纳米粒子的晶体性质、尺寸和球形形态。HR-TEM 显示平均粒径为 36 纳米,呈球形。能量色散 X 射线(EDX)光谱证实了钛的存在。傅立叶变换红外光谱(FTIR)确定了负责还原和稳定 TiO2 纳米粒子的基本生物分子。合成的纳米粒子被开发为光催化剂,用于在可见光照射下处理胰蓝染料,分解速度快,降解效率高达 84%,催化剂可重复使用。通过自由基实验发现,h+ 和 OH* 自由基是活性较高的自由基。研究还进一步考察了 EES-TiO2 NPs 将 4-硝基苯酚转化为 4-氨基苯酚的催化潜力,在碱性介质中的转化率达到 98%。紫外可见光谱显示,在催化转化过程中,转化率下降了 k = 0.011 min-1。此外,EES-TiO2 NPs 对病原菌有显著的抗菌作用,以圆盘扩散法的抑菌区来衡量。研究结果表明,合成的 EES-TiO2 纳米粒子有望用于各种环境和抗病原体应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Green synthesis of TiO2 nanoparticles using Echinops echinatus plant extract and its potential applications for photocatalytic dye degradation, 4-nitrophenol reduction, and antimicrobial activity

Green synthesis of TiO2 nanoparticles using Echinops echinatus plant extract and its potential applications for photocatalytic dye degradation, 4-nitrophenol reduction, and antimicrobial activity

Industrial wastewater poses a significant threat to human health and the environment. Numerous treatment methods have been developed to mitigate harmful compounds. The production of multifunctional titanium oxide nanoparticles (TiO2-NPs) for wastewater treatment through green synthesis is a desirable alternative to conventional methods. This study reports using Echinops echinatus leaves (EES) as an effective bio-reductant for the green synthesis of TiO2-NPs. A simple and eco-friendly process with low reaction time and temperature was adopted for the EES-mediated synthesis of TiO2-NPs. Various spectroscopic and microscopic techniques were used to characterize the synthesized nanoparticles. The UV–visible spectrophotometer spectra showed an absorbance peak at 289 nm and a bandgap of 2.91 eV. SEM and XRD revealed the nanoparticles’ crystal nature, size, and spherical morphology. HR-TEM indicated an average particle size of 36 nm with a spherical shape. Energy-dispersive X-ray (EDX) spectra confirmed the presence of titanium. Fourier transform infrared (FTIR) spectroscopy identified the fundamental biomolecules responsible for reducing and stabilizing the TiO2 nanoparticles. The synthesized nanoparticles were developed as photocatalysts for treating trypan blue dye under visible light irradiation, achieving a rapid decomposition rate with 84% degradation efficiency and catalyst reusability. The radical experiment that was studied identified h+ and OH* radicals as the more reactive species. The catalytic potential of EES-TiO2 NPs was further examined for converting 4-nitrophenol to 4-aminophenol, with a 98% conversion rate in an alkaline medium. UV–vis spectroscopy showed a decrease rate of k = 0.011 min⁻1 during the catalytic conversion. Additionally, EES-TiO2 NPs demonstrated significant antibacterial effects on pathogenic bacteria, as measured by the zone of inhibition in the disc diffusion method. The findings suggest that the synthesized EES-TiO2 nanoparticles hold promise for various environmental and antipathogenic applications.

Graphical Abstract

A schematic representation of the green synthesis of TiO2 nanoparticles for photocatalysis and antimicrobial activity.

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来源期刊
Biomass Conversion and Biorefinery
Biomass Conversion and Biorefinery Energy-Renewable Energy, Sustainability and the Environment
CiteScore
7.00
自引率
15.00%
发文量
1358
期刊介绍: Biomass Conversion and Biorefinery presents articles and information on research, development and applications in thermo-chemical conversion; physico-chemical conversion and bio-chemical conversion, including all necessary steps for the provision and preparation of the biomass as well as all possible downstream processing steps for the environmentally sound and economically viable provision of energy and chemical products.
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