Generation and investigation of Fe₂O₃ nanoparticles' optical properties and antibacterial activity using pulsed laser ablation in deionized water

IF 0.9 Q4 NANOSCIENCE & NANOTECHNOLOGY

International Journal of Nanoscience Pub Date : 2023-10-20 DOI:10.1142/s0219581x23500667

Entidhar Jasim Khamees, Inas Ahmed Saeed, Lubna Abdulazeem, Olcay Gencyilmaz, Manoj Kumar Agarwal, Kahtan A. Mohammed, Shubham Sharma

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引用次数: 0

Abstract

The synthesis of metallic nanoparticles has ignited intense interest over the last decade due to their unique properties, which make them applicable in a variety of fields of science and technology. In this study, iron oxide nanoparticles (Fe 2 O 3 NPs) were synthesized, characterized, and their antibacterial activity was determined using a low-cost and simple method. Method: In this paper, magnetic nanoparticles were synthesized by a physical method of pulsed laser ablation in a liquid medium with 600 mJ energy. Magnetic Fe 2 O 3 NPs were prepared by using a 1064 nm Nd-YAG laser and bombarding the [Formula: see text]-Fe 2 O 3 target in a deionized aqueous solution. An absorption spectrometer was used to study the optical properties and structures of nanoparticles, the prepared nanoparticles were analyzed using Fourier transform infrared (FTIR) spectroscopy. Besides, utilizing FESEM, the morphological and surface characteristics were examined. The antibacterial activity of Fe 2 O 3 NPs against several pathogenic Gram-positive and Gram-negative bacteria isolated from various human infection sites was investigated using a disk diffusion experiment with laser pulse lengths of (100 nm, 150 nm, 200 nm and 300 nm) with the same laser energy. Result: The results showed the success of this method as the first sign that can be inferred from the change in the color of the solution to prepare nanoparticles. Fe 2 O 3 NPs are mostly spherical in shape, with nano sizes ranging between 66.7 nm and 9.5 nm. The energy gap was found to be in the range of 1.79–2.39 eV for almost all nanoparticles prepared. Fe 2 O 3 NPs were formed in almost spherical surface morphology with regular size and shape. The results showed their effect on stopping the growth of bacteria of type E. coli maximum zone of inhibition of 20 mm and 19 mm of S. epidermidis, 18 mm of type S. mutans and 16 mm of P. aeruginosa. As a result, in this study, it was shown that Fe 2 O 3 NPs produced in water by laser ablation method can be used as antibacterial agents due to these properties.

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在去离子水中脉冲激光烧蚀制备Fe2O3纳米颗粒及其光学性能和抗菌活性研究

在过去的十年中，金属纳米颗粒的合成由于其独特的性质而引起了人们的强烈兴趣，这使得它们适用于各种科学和技术领域。本研究采用低成本、简单的方法合成、表征了氧化铁纳米颗粒(fe2o3 NPs)，并测定了其抗菌活性。方法:在能量为600 mJ的液体介质中，采用脉冲激光烧蚀的物理方法合成磁性纳米颗粒。采用1064 nm Nd-YAG激光，在去离子水溶液中轰击fe2o3靶，制备了磁性fe2o3纳米粒子。利用吸收光谱仪研究了纳米颗粒的光学性质和结构，并利用傅里叶变换红外光谱对制备的纳米颗粒进行了分析。此外，利用FESEM分析了材料的形貌和表面特征。采用激光脉冲长度为100 nm、150 nm、200 nm和300 nm，激光能量相同的圆盘扩散实验，研究了铁2o3 NPs对人体不同感染部位分离的几种致病性革兰氏阳性和革兰氏阴性细菌的抑菌活性。结果:该方法成功的第一个标志可以从制备纳米粒子的溶液颜色的变化中推断出来。fe2o3纳米粒子大多呈球形，纳米尺寸在66.7 ~ 9.5 nm之间。几乎所有制备的纳米粒子的能隙都在1.79 ~ 2.39 eV之间。fe2o3 NPs形成的表面形貌接近球形，尺寸和形状规则。结果表明，其对大肠杆菌的最大抑制区分别为20 mm和19 mm的表皮葡萄球菌、18 mm的变形葡萄球菌和16 mm的铜绿假单胞菌。因此，本研究表明，利用激光烧蚀法在水中制备的fe2o3 NPs的这些特性，可以用作抗菌剂。

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来源期刊

International Journal of Nanoscience NANOSCIENCE & NANOTECHNOLOGY-

CiteScore

1.60

自引率

12.50%

发文量

期刊介绍： This inter-disciplinary, internationally-reviewed research journal covers all aspects of nanometer scale science and technology. Articles in any contemporary topical areas are sought, from basic science of nanoscale physics and chemistry to applications in nanodevices, quantum engineering and quantum computing. IJN will include articles in the following research areas (and other related areas): · Properties Effected by Nanoscale Dimensions · Atomic Manipulation, Coupling of Properties at the Nanoscale · Controlled Synthesis, Fabrication and Processing at the Nanoscale · Nanoscale Precursors and Assembly, Nanostructure Arrays, Fullerenes, Carbon Nanotubes and Organic Nanostructures · Quantum Dots, Quantum Wires, Quantum Wells, Superlattices

Generation and investigation of Fe2O3 nanoparticles' optical properties and antibacterial activity using pulsed laser ablation in deionized water

Abstract

Generation and investigation of Fe₂O₃ nanoparticles' optical properties and antibacterial activity using pulsed laser ablation in deionized water