Study of Optical and Structural Properties of Silver Solution Ag Nanoparticles

mjl@ ltrby@ wl`lm Pub Date : 2022-12-01 DOI:10.33899/edusj.2022.134548.1256

Muna allhiby, Mutaz AlJuboori

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Abstract

Colloidal nanoparticles attended with a pulsed Nd:YAG, Q-switch in water distilled at wavelength (1064nm) and frequency rate (1Hz) and pulse duration (10ns) and silver nanoparticles attended without the use of surface tensile as laser removal of the silver target (10ns) was attended by silver nanoparticles without the use of surface tensile as laser removal of the silver target (10ns) was attended High purity) reached purity (99.9) immersed in distilled water (deionized) where the metal target was first removed from silver placed in (5mL) from distilled water, a specific laser card (260mJ) and a number of pulse fixed laser pulses(50, 100, 150) respectively, where the size and optical characteristics of nanoparticles were distinguished by the powerful electron microscope (TEM) and visible UV spectrometry (visible-UV), respectively, and the peaks of surface plasma resonance (SPR) showed an increase at (403) and (405) Nm, which is therefore within the permitted range, showed a higher peak of 405 nm and showed sharp spectra, although the width of the spectra slightly increased and the energy gaps showed an increase in the amount of 2.54eV at pulse (50). And (2.57eV) at pulse (100) and valued (2.66eV) at pulse (150).

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银溶液银纳米粒子光学和结构性质的研究

用脉冲Nd:YAG处理的胶体纳米粒子，在波长（1064nm）、频率（1Hz）和脉冲持续时间（10ns蒸馏水（去离子），其中金属靶首先从银中去除，放置在蒸馏水中（5mL），分别为特定激光卡（260mJ）和多个脉冲固定激光脉冲（50100150），其中纳米颗粒的尺寸和光学特性分别通过强大的电子显微镜（TEM）和可见紫外光谱法（可见紫外）来区分，表面等离子体共振（SPR）的峰值在（403）和（405）Nm处显示出增加，因此在允许的范围内，显示出405nm的更高峰值并显示出尖锐的光谱，尽管光谱的宽度略有增加，并且能隙在脉冲（50）处显示出2.54eV的量的增加。在脉冲（100）处为（2.57eV），在脉冲（150）处为值（2.66eV）。

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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24 weeks