天然高分子涂层制备磁性纳米复合材料与环丙沙星

F. Soleymani
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引用次数: 0

摘要

在这项研究中,我们尝试用天然颗粒状聚合物(颗粒状粘液作为一种天然的、生物相容性和可生物降解的涂层)来稳定磁性纳米颗粒(Fe3O4),然后在这些纳米颗粒上装载药物环丙沙星。然后,利用各种表征工具和测试,如x射线衍射(XRD)分析、透射电子显微镜(TEM)分析、FEE-SEM场扫描电子显微镜(SEM)振动样品磁强计(VSM)、红外傅立叶分析(FTIR)、光谱学(UV-Vis)、动态光散射(DLS)、纳米颗粒比表面积(BET)及测试必须研究圆盘扩散的抗菌性能[21]。XRD分析和结构分析结果表明,该磁铁矿相具有较高的纯度。FE-SEM和TEM分析结果表明,磁铁矿纳米颗粒呈球形,粒径很小,平均为13 nm。DLS分析结果表明,不同结构的磁性纳米颗粒的水动力直径为81.9 ~ 119.2 nm。磁性纳米颗粒的Zeta电位值在-0.28 ~ -55.2 mV之间,表明纳米颗粒具有良好的胶体稳定性。VSM结果表明,样品具有较高的饱和磁化强度,且样品的强迫场和残余磁化强度较小,表明纳米颗粒具有超强磁性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fabrication of Magnetic Nanocomposites Using Natural Polymer Coating to Grain and Ciprofloxacin
In this study, we try to stabilize magnetic nanoparticles (Fe3O4) with natural granular polymer (granular mucilage as a natural, biocompatible and biodegradable coating) and then load the drug ciprofloxacin on these nanoparticles. Then, structural, magnetic, physicochemical, colloidal and antibacterial properties of the samples using various characterization tools and tests such as X-ray diffraction (XRD) analysis, transmission electron microscopy (TEM) analysis, FEE-SEM field scanning electron microscopy (SEM) Vibrating Sample Magnetometry (VSM), Infrared Fourier Analysis (FTIR), Optical Spectroscopy (UV-Vis), Dynamic Light Scattering (DLS), Nanoparticle Specific Surface (BET) and Testing The antibacterial property of disk diffusion must be investigated [21]. XRD results as well as structural analysis of the samples confirm the magnetite phase with high purity. The results of FE-SEM and TEM analyzes indicate spherical morphology and very small size of magnetite nanoparticles (average 13 nm). The results of DLS analysis show a hydrodynamic diameter of 81.9 to 119.2 nm for magnetic nanoparticles with different structures. Zeta potential values ​​for magnetic nanoparticles are between -0.28 and -55.2 mV, indicating suitable colloidal stability of the nanoparticles for biological applications. The VSM results indicate the high saturation magnetization of the samples as well as the small amounts of the forcing field and the residual magnetization of the samples, which indicates the superpromagnetic property of the nanoparticles.
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