Core atoms escape from the shell: reverse segregation of Pb–Al core–shell nanoclusters via nanoscale melting

IF 4.703 3区 材料科学
Wenkai Wu, Theodoros Pavloudis, Richard E. Palmer
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引用次数: 0

Abstract

Melting is a phase transition that profoundly affects the fabrication and diverse applications of metal nanoclusters. Core–shell clusters offer distinctive properties and thus opportunities compared with other classes of nano-alloys. Molecular dynamics simulations have been employed to investigate the melting behaviour of Pb–Al core–shell clusters containing a fixed Pb147 core and varying shell thickness. Our results show that the core and shell melt separately. Surprisingly, core melting always drives the core Pb atoms to break out the shell and coat the nanoclusters in a reversed segregation process at the nanoscale. The melting point of the core increases with the shell thickness to exceed that of the bare core cluster, but the thinnest shell always supresses the core melting point. These results can be a reference for the future fabrication, manipulation, and exploitation of the core–shell nanoalloys chosen. The system chosen is ideally suited for experimental observations.

Abstract Image

核心原子从壳层中逃逸:通过纳米级熔化Pb-Al核壳纳米团簇的反向偏析。
熔融是一种深刻影响金属纳米团簇制备和各种应用的相变。与其他种类的纳米合金相比,核壳团簇具有独特的特性,因此有更多的机会。采用分子动力学模拟研究了含有固定Pb147核和不同壳厚的Pb-Al核-壳团簇的熔化行为。我们的结果表明,核和壳是分开熔化的。令人惊讶的是,在纳米尺度上,核心熔化总是驱动核心Pb原子冲破外壳,并以相反的分离过程包裹在纳米团簇上。随着壳层厚度的增加,堆芯的熔点逐渐增大,超过裸堆芯的熔点,但最薄的壳层总是抑制堆芯的熔点。这些结果可以为今后所选择的核壳纳米合金的制备、操作和开发提供参考。所选择的系统非常适合实验观察。
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
Nanoscale Research Letters
Nanoscale Research Letters NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
15.00
自引率
0.00%
发文量
110
审稿时长
2.5 months
期刊介绍: Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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