响应面法优化水热合成氧化镝纳米颗粒-附着-聚乙二醇模板- Box-Behnken

IF 0.4 Q4 NANOSCIENCE & NANOTECHNOLOGY Nano Hybrids and Composites Pub Date : 2023-07-31 DOI:10.4028/p-6ytPC9
S. Wyantuti, Juliani Iskandar, Retna Putri Fauzia, H. Bahti
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引用次数: 1

摘要

氧化镝纳米颗粒(dy2o3纳米颗粒)已广泛应用于许多不同的技术领域。此外,通过适当的合成修饰,dy2o3纳米颗粒不仅具有工业用途,而且具有生物医学应用的前景,例如,通过聚乙二醇(PEG)附着在纳米颗粒上作为模板。采用响应面法- Box-Behnken实验设计(RSM-BBD)对水热合成纳米dy2o3的工艺进行了优化。研究了聚乙二醇模板的体积和浓度对纳米颗粒粒径的影响。利用桌面扫描电镜(sem)、能量色散x射线(SEM-EDX)和x射线衍射(XRD)对peg模板修饰后的dy2o3纳米颗粒的晶体结构和表面形貌进行了表征。采用水热合成法,在纳米颗粒上附着peg模板,制备了dy2o3纳米颗粒。聚乙二醇作为模板将产生均匀的形状,并防止纳米颗粒聚集。对于进一步的生物医学应用,它也有助于提高纳米颗粒的生物相容性。利用RSM-BBD研究了影响水热合成纳米Dy2O3的参数(如前驱体(PEG和Dy2O3)的质量比、温度和时间)的优化。最佳工艺条件为15 g PEG和0.45 g Dy2O3,温度为200℃,反应时间为7 h。扫描电镜结果显示,制备的dy2o3纳米颗粒呈球形和纳米线状,最小粒径为10.1 nm。此外,xrd图谱显示了典型的立方结构,估计晶粒尺寸为45.47 nm。
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Optimization of Hydrothermal Synthesis of Dysprosium Oxide Nanoparticles- Attached-Polyethyleneglycol Template Using Response Surface Methodology- Box-Behnken
Dysprosium oxide nanoparticles (Dy2O3-nanoparticles) have been extensively used in many different fields of technologies. In addition, with a proper synthesis modification, Dy2O3-nanoparticles are promising materials not only for industry purposes, but also for biomedical applications, for instance, through polyethyleneglycol (PEG) attachment as a template on nanoparticles. This study focuses on the optimization of hydrothermal synthesis of Dy2O3-nanoparticles using Response Surface Methodology – Box-Behnken experimental design (RSM-BBD). The influences of the volume and concentration of PEG-template to the size diameter of nanoparticles were also studied. The crystal structure and surface morphology Dy2O3-nanoparticles with PEG-template modification were characterized using Tabletop Scanning Electron Microscopy (TSEM) coupled with Energy Dispersive X-Rays (SEM-EDX) and X-Rays Diffraction (XRD). Dy2O3-nanoparticles were prepared by using hydrothermal synthesis method with PEG-template attachment on the nanoparticles. PEG as a template will create the uniform shapes and prevent the agglomeration of the nanoparticles. For further biomedical applications, it also helps to enhance the biocompatibility of nanoparticles. The optimization of influence parameters on the hydrothermal synthesis of Dy2O3-nanoparticles, (e.g. mass ratio precursor (PEG and Dy2O3), temperature, and time) were investigated using RSM-BBD. The optimum conditions were 15 g PEG and 0.45 g Dy2O3 at 200°C for 7 h resulting in the highest amount of Dy2O3-nanoparticles products. SEM image results show spherical and nanowires shapes of Dy2O3-nanoparticles produced with the average size diameter of 10.1 nm as the smallest size of nanoparticles. In addition, XRD-patterns indicates the typical cubic structure of Dy2O3-nanoparticles with the estimation crystal size of 45.47 nm.
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Nano Hybrids and Composites
Nano Hybrids and Composites NANOSCIENCE & NANOTECHNOLOGY-
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