纳米氧化银生物合成的动力学和热力学研究

A. Rasheed, H. Al-Shammary
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摘要

本研究采用芫荽籽提取物制备氧化银纳米颗粒(Ag 2o NPs),并利用硝酸银溶液生物合成Ag 2o NPs。采用红外红外红外光谱(FTIR)、x射线衍射、原子力显微镜(AFM)和扫描电镜(SEM)对数据进行了表征。FTIR光谱在(501.49 cm -1)附近有一个条带,对应于Ag 2o的氧双键;XRD谱图鉴定了Ag 2o纳米颗粒的形貌,与参考[11]相比,在与Ag 2o相关的2θ(32、38、46、56、65和75°)处观察到6个强峰,表明了这些颗粒的形成。原子力显微镜(AFM)和扫描电镜(SEM)显示ag2o NPs的平均直径为57.31 nm,呈立方状分布。此外,反应的阶数为伪一阶。计算了活化能、焓、熵变和吉普斯自由能的值。活化能为(+1.37j\ mol),焓为(-1.371 j\mol),焓为负值为放热。熵值为(+56.53 j\mol),吉pps自由能为(-3.957 j\mol)。本研究采用生物合成的方法制备氧化银纳米颗粒。该颗粒直径为(57.31)nm。研究了该反应的动力学和热力学,并用化学方程进行了证明。
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Kinetic and Thermodynamic Studies of Biosynthesis of Silver Oxide Nanoparticles
The present study was carried out by the formation of silver oxide nanoparticles (Ag 2 O NPs) using a plant extract from the seeds of Coriandrum sativum for the biosynthesis of Ag 2 O NPs from silver nitrate solution. Data was characterized using furrier transform infrared radiation FTIR, X-ray diffraction XRD, atomic force microscopy (AFM), and scanning electron microscopy (SEM). Results indicated a successful creation of nanoparticles of Ag 2 O. FTIR spectra showed a band around (501.49 cm -1 ), corresponding to the double bond of oxygen of Ag 2 O and XRD pattern identified the appearance of Ag 2 O nanoparticles, where six strong peaks were observed at 2θ (32,38, 46, 56,65and 75 ° ) related to Ag 2 O compared with the reference [11], and that indicated to the formation of these particles. Images of AFM showed Ag 2 O NPs with an average diameter of (57.31 nm) and SEM indicated a distribution of cubic shape of Ag 2 O NPs. In addition, the order of reaction was pseudo-first-order. The value of activation energy, enthalpy, the change in entropy and Gipps free energy has calculated. The value of activation energy was (+1.37j\ mol), the value of enthalpy (-1.371 j\mol), the negative value of enthalpy was heat emission. The value of entropy was (+56.53 j\mol) and the value of Gipps free energy was (-3.957 J\mol). In this study, silver oxide nanoparticles were prepared by the bio-synthesis method. The diameter of this particles was (57.31) nm. The kinetics and thermodynamic of this reaction were studied and proved by a chemical equation.
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