Antibacterial activity of CuO - cellulose nano rods depends on anew green synthesis (cotton)

IF 1.4 Q4 NANOSCIENCE & NANOTECHNOLOGY
R. Hussain, W. Aziz, I. A. Ibrahim
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引用次数: 1

Abstract

In this study CuO nano sheets were prepared using the cellulose extracted from green synthesis (cotton) as a novel me project. Structural properties were examined using X-Ray Diffraction (XRD), Field Emission Scanning Electron Microscopy (FESEM), and Ultra Violet (UV-Vis). The optimum copper oxide peak was at 2 theta 〖35.44〗^°corresponding to (1 11) while for the cellulose was 〖22.8〗^°corresponds to (002). FESEM images of CuO nano sheets were relatively homogenous with diameters less than 30 nm. The UV-Vis for CuO-cellulose nano rods was observed at 350-360 nm, which is higher than of pure CuO nano sheet. The energy band gaps were 3.20 eV and 3.30 eV of CuO and CuO-CNR respectively. Finally antimicrobial activities of samples have been investigated against the Gram positive (pneumonia) and gram-negative (pseudomonas). The maximum antibacterial activities against the Gram positive (pneumonia) of CuO nano sheet and of CuO- cellulose nano rods are 16 mm and 19 mm respectively. The maximum antibacterial activities against the Gram negative (pseudomonas) of CuO nano sheet and of CuO- cellulose nano rods are 30 mm and 33 mm.
CuO -纤维素纳米棒的抗菌活性依赖于新型绿色合成(棉花)
本研究以绿色合成棉中提取的纤维素为原料制备CuO纳米片。采用x射线衍射(XRD)、场发射扫描电镜(FESEM)和紫外-可见(UV-Vis)对其结构性能进行了表征。氧化铜的最佳峰位为2 θ〖35.44〗^°,对应于(11);纤维素的最佳峰位为〖22.8〗^°,对应于(002)。CuO纳米片的FESEM图像相对均匀,直径小于30 nm。在350 ~ 360 nm处观察到CuO-纤维素纳米棒的紫外可见性,高于纯CuO纳米片。CuO和CuO- cnr的能带隙分别为3.20 eV和3.30 eV。最后,研究了样品对革兰氏阳性(肺炎)和革兰氏阴性(假单胞菌)的抗菌活性。CuO纳米片和CuO-纤维素纳米棒对革兰氏阳性菌(肺炎)的最大抑菌活性分别为16 mm和19 mm。CuO纳米片和CuO-纤维素纳米棒对革兰氏阴性菌(假单胞菌)的最大抑菌活性分别为30 mm和33 mm。
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来源期刊
Journal of Nanostructures
Journal of Nanostructures NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
2.60
自引率
0.00%
发文量
0
审稿时长
7 weeks
期刊介绍: Journal of Nanostructures is a medium for global academics to exchange and disseminate their knowledge as well as the latest discoveries and advances in the science and engineering of nanostructured materials. Topics covered in the journal include, but are not limited to the following: Nanosystems for solar cell, energy, catalytic and environmental applications Quantum dots, nanocrystalline materials, nanoparticles, nanocomposites Characterization of nanostructures and size dependent properties Fullerenes, carbon nanotubes and graphene Self-assembly and molecular organization Super hydrophobic surface and material Synthesis of nanostructured materials Nanobiotechnology and nanomedicine Functionalization of nanostructures Nanomagnetics Nanosensors.
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