Structural and Optical Properties of Silver Nanoparticles In Situ Synthesized in ZnO Film by Sol–Gel Method

Reviews on Advanced Materials and Technologies Pub Date : 1900-01-01 DOI:10.17586/2687-0568-2021-3-4-29-33

L. A. Sokura, E.A. Ryabkova, D. Kirilenko, E. V. Shirshneva-Vaschenko

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Abstract

We fabricate the samples with two layers of silver nanoparticles embedded in ZnO film exploring sol–gel method by varying the annealing temperatures. The structural properties of the samples are determined by transmission electron microscopy. The effect of the annealing temperature on the nanoparticles plasmon absorption spectra is studied. Annealing at 570 °C results in a shift of the plasmon absorption maximum from 580 nm to 620 nm, due to an increase in the nanoparticles average size from 63 nm to 74 nm. Increasing the annealing temperature to 650 °C results in a shift of plasmon absorption maximum back to 580 nm due to a decrease in the nanoparticles size to 61 nm. Before annealing, the silver nanoparticles of the upper layer locate on top of the nanoparticles of the bottom layer, however, in the plane of the layers, they are arranged randomly at a distance of 30 to 150 nm from each other. As a result of the annealing, the system tended to be ordered, as a result, the nanoparticles in the layers become to be distributed equidistant at 40–70 nm between them; the nanoparticles of the upper layer tend being located between the nanoparticles of the bottom layer.

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溶胶-凝胶法原位合成ZnO纳米银的结构和光学性质

我们通过改变退火温度，探索溶胶-凝胶法制备两层银纳米颗粒在ZnO薄膜中。用透射电镜测定了样品的结构特性。研究了退火温度对纳米粒子等离子体吸收光谱的影响。由于纳米粒子的平均尺寸从63 nm增加到74 nm，在570°C下退火导致等离子体吸收最大值从580 nm转移到620 nm。当退火温度升高至650℃时，由于纳米颗粒尺寸减小至61 nm，等离子体吸光度最大值移回580 nm。退火前，上层的银纳米粒子位于底层纳米粒子的顶部，但在层的平面上，它们彼此之间以30 ~ 150nm的距离随机排列。退火后，体系趋于有序，层内纳米颗粒在40 ~ 70 nm处均匀分布;上层的纳米颗粒倾向于位于底层的纳米颗粒之间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reviews on Advanced Materials and Technologies

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