溶液等离子体中金纳米颗粒的合成工艺

IF 2 4区 材料科学 Q3 MATERIALS SCIENCE, COATINGS & FILMS
Nagahiro Saito , Junko Hieda , Osamu Takai
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引用次数: 161

摘要

我们描述了在水溶液中通过辉光放电合成金纳米粒子的动力学。用脉冲电源在水溶液中产生放电。初始[AuCl4]−离子浓度和电极间施加的电压是不同的。放电过程中产生的H自由基使[AuCl4]−离子被还原。根据放电过程中[AuCl4]−离子浓度的变化来计算还原速率。放电时间为1 min,形成了约150nm大小的枝晶状纳米颗粒。随着放电时间的延长,溶液的pH值逐渐降低。pH值的降低导致了金纳米颗粒的溶解。还原速率和溶解速率随外加电压成比例增加。放电45 min后,金纳米颗粒的尺寸在20 nm处减小。此外,还观察到三角形、五边形和六边形等奇异形状的金纳米颗粒。通过电子衍射图证实其为多晶金纳米颗粒。综上所述,当溶解导致还原速率降低时,各向异性纳米颗粒在溶液中形成并继续增大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Synthesis process of gold nanoparticles in solution plasma

We describe the dynamics of the synthesis of gold nanoparticles by a glow discharge in aqueous solutions. A pulsed power supply was used to generate discharges in the aqueous solutions. The initial [AuCl4] ion concentration and the voltage applied between the electrodes were varied. The [AuCl4] ion was reduced by the H radicals generated in the discharge. The reduction rates were calculated from the changes in the [AuCl4] ion concentration during the discharge time. Dendrite-shaped nanoparticles of about 150 nm size were formed in discharge during 1 min. The pH of the solution decreased gradually with the increase of the discharge time. The decrease in pH led to the dissolution of gold nanoparticles. The reduction and the dissolution rates increased proportionately with the applied voltage. The size of the gold nanoparticles decreased at 20 nm after running the discharge during 45 min. Moreover gold nanoparticles with exotic shapes, such as triangle, pentagon, and hexagon were also observed. The particles were confirmed to be as polycrystalline gold nanoparticles by electron diffraction patterns. In summary, when the reduction rate lowered as a result of dissolution, anisotropic nanoparticles were formed and continued to grow in size in the solution.

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来源期刊
Thin Solid Films
Thin Solid Films 工程技术-材料科学:膜
CiteScore
4.00
自引率
4.80%
发文量
381
审稿时长
7.5 months
期刊介绍: Thin Solid Films is an international journal which serves scientists and engineers working in the fields of thin-film synthesis, characterization, and applications. The field of thin films, which can be defined as the confluence of materials science, surface science, and applied physics, has become an identifiable unified discipline of scientific endeavor.
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