Heat-induced coarsening of layer-by-layer assembled mixed Au and Pd nanoparticles.

IF 4.3 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Young-Seok Shon, Dayeon Judy Shon, Van Truong, Diego J Gavia, Raul Torrico, Yohannes Abate
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Abstract

This article shows the coarsening behavior of nanoparticle multilayers during heat treatments which produce larger metallic nanostructures with varying shapes and sizes on glass slides. Nanoparticle multilayer films are initially constructed via the layer-by-layer self-assembly of small and monodispersed gold and/or palladium nanoparticles with different compositions (gold only, palladium only, or both gold and palladium) and assembly orders (compounding layers of gold layers over palladium layers or vice versa). Upon heating the slides at 600°C, the surface nanoparticles undergo coalescence becoming larger nanostructured metallic films. UV-Vis results show a clear reliance of the layering sequence on the optical properties of these metal films, which demonstrates an importance of the outmost (top) layers in each nanoparticle multilayer films. Topographic surface features show that the heat treatments of nanoparticle multilayer films result in the nucleation of nanoparticles and the formation of metallic cluster structures. The results confirm that different composition and layering sequence of nanoparticle multilayer films clearly affect the coalescence behavior of nanoparticles during heat treatments.

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逐层组装金钯混合纳米颗粒的热致粗化。
本文研究了纳米颗粒多层膜在热处理过程中的粗化行为,从而在玻片上产生较大的、形状和尺寸各异的金属纳米结构。纳米颗粒多层膜最初是通过小的单分散的金和/或钯纳米颗粒的逐层自组装而构建的,这些纳米颗粒具有不同的成分(仅金,仅钯,或同时具有金和钯)和组装顺序(金层在钯层上复合层,反之亦然)。在600℃下加热载玻片后,表面纳米颗粒发生聚并,形成更大的纳米结构金属薄膜。UV-Vis结果显示,这些金属薄膜的光学性质明显依赖于层序,这表明每个纳米颗粒多层膜中最外层(顶层)的重要性。纳米颗粒多层膜的表面形貌特征表明,热处理导致纳米颗粒成核,形成金属团簇结构。结果表明,纳米颗粒多层膜的不同组成和层序对热处理过程中纳米颗粒的聚并行为有明显影响。
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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来源期刊
Advances in Nano Research
Advances in Nano Research Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
7.70
自引率
33.30%
发文量
0
期刊介绍: The Journal of Advances in Nano Research is an international and interdisciplinary peer reviewed journal. The journal aims to integrate high quality contributions from scientists and engineers alike into a single source of information that serves broad scientific audience. The journal publishes original full research articles, short communications for rapid print of research findings, and review articles. The Journal will also print special reports that feature recent discoveries with potential impact or commentary on a state-of-the-art contribution reported in the scientific literature. The journal anticipates contributions in the synthesis, fabrication, characterization and applications of nanomaterials and nanosystems, molecular simulations and nano-x (nanophysics, nanochemistry, nanotubes, nanobiotechnology, nanomedicine, nanoptics, nanoelectronics, nanomachines/nanodevices, nanocatalysis, nanocomposites, nanomechanics/nanofluidics, etc.)
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