Optical and Electrical Properties of Gold-Silver Nanoalloys Synthesized through Photochemical Reduction using Femtosecond Laser

The Journal of Pure and Applied Chemistry Research Pub Date : 2020-10-22 DOI:10.21776/UB.JPACR.2020.009.03.523

A. Hidayah, Y. Herbani

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Abstract

In this work we investigated the optical and electrical properties of Au-Ag nanoalloys in various volume ratios. The nanoparticles have been prepared from gold and silver ions reduced by direct irradiation femtosecond laser. The samples were added into a quartz cuvette and irradiated for 10 minutes. Each sample was observed the optical property where surface plasmon resonance (SPR) peak was existed. In addition, electrical conductivity of the colloids was derived from the measurement of the correspond zeta potential by dynamic light scattering (DLS) method. The results showed that the SPR peak of Au-Ag nanoalloy were shifted almost linearly in between 409 nm for Ag and 530 nm for Au depending on their volume fraction. The conductivity measurement showed that Au0Ag100 (pure Ag) nanoparticles has the highest value and Au100Ag0 (pure Au) nanoparticles has the lowest value, and interestingly, Au-Ag nanoalloys have the values between Au0Ag100 and Au100Ag0. Briefly, this work revealed that both optical and electrical properties of Au-Ag nanoalloys can be easily tuned by regulating the volume fraction between the two elements.

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飞秒激光光化学还原法制备金-银纳米合金的光学和电学性质

本文研究了不同体积比下的Au-Ag纳米合金的光学和电学性质。用飞秒激光直接照射还原金离子和银离子制备了纳米粒子。将样品加入石英试管中辐照10分钟。在存在表面等离子体共振(SPR)峰的地方观察了每个样品的光学性质。此外，通过动态光散射(DLS)方法测量相应的zeta电位，得到了胶体的电导率。结果表明:随着体积分数的不同，Au-Ag纳米合金的SPR峰在Ag为409 nm和Au为530 nm之间呈线性移动;电导率测量结果表明，Au0Ag100(纯Ag)纳米颗粒的电导率最高，Au100Ag0(纯Au)纳米颗粒的电导率最低，而Au-Ag纳米合金的电导率介于Au0Ag100和Au100Ag0之间。简而言之，这项工作表明，通过调节两种元素之间的体积分数，可以很容易地调节Au-Ag纳米合金的光学和电学性质。

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The Journal of Pure and Applied Chemistry Research

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