Temperature and Composition Dependent Structural Evolution of AgPd Bimetallic Nanoparticle: Phase Diagram of (AgPd)_(151) Nanoparticle

Hyun You Kim; Da Hye Kim; Hyuck Mo Lee

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Temperature and Composition Dependent Structural Evolution of AgPd Bimetallic Nanoparticle: Phase Diagram of (AgPd)_(151) Nanoparticle

机译：AgPd双金属纳米粒子的温度和成分依赖性结构演变：（AgPd）_（151）纳米粒子的相图

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We study the structural evolution of a 151 atom Ag-Pd bimetallic nanoparticle with composition and temperature. The solid-to-liquid transition region was investigated using molecular dynamics simulations with an improved collision method, and the solid-state structure of the nanoparticle was explored with a combination of molecular dynamics and density functional theory. Results show that an fcc-to-icosahedron transformation occurs at high temperature in all composition range and that a composition of nanoparticles concerns the atomic distribution of the (AgPd)_(151) nanoparticle. As a result, we constructed a phase diagram of the (AgPd)_(151) nanoparticle. Our phase diagram offers guidance on the application of Ag-Pd nanoparticles.

机译：我们研究了具有组成和温度的151原子Ag-Pd双金属纳米粒子的结构演变。使用分子动力学模拟和改进的碰撞方法研究了固液过渡区域，并结合分子动力学和密度泛函理论研究了纳米粒子的固态结构。结果表明，在所有组成范围内，高温下均发生fcc至二十面体转变，并且纳米粒子的组成与（AgPd）_（151）纳米粒子的原子分布有关。结果，我们构建了（AgPd）_（151）纳米颗粒的相图。我们的相图为Ag-Pd纳米粒子的应用提供了指导。

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《Journal of nanoscience and nanotechnology》 |2011年第3期|共5页
作者
Hyun You Kim; Da Hye Kim; Hyuck Mo Lee;
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正文语种 eng
中图分类特种结构材料;
关键词
Phase Diagram; Bimetallic Nanoparticle; Molecular Dynamics Simulation; Density Functional Theory;

机译：相图;双金属纳米颗粒;分子动力学模拟;密度泛函理论;

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1. Temperature and Composition Dependent Structural Evolution of AgPd Bimetallic Nanoparticle: Phase Diagram of (AgPd)_(151) Nanoparticle [J] . Hyun You Kim, Da Hye Kim, Hyuck Mo Lee Journal of nanoscience and nanotechnology . 2011,第3期

机译：AgPd双金属纳米粒子的温度和成分依赖性结构演变：（AgPd）_（151）纳米粒子的相图
2. Phase diagram and structural evolution of Ag-Au bimetallic nanoparticles: molecular dynamics simulations [J] . Sang Chul Yeo, Da Hye Kim, Kihyun Shin Physical chemistry chemical physics: PCCP . 2012,第8期

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4. Novel Ag and AgPd Nanoparticles for MLCC's with Ultrathin Electrodes: A Case for the Revival of PM MLC Technology [C] . Brendan P. Farrell, Daniel Andreescu, Christopher M. Eastman, Symposium for Passive Components; 20050321-24; Palm Springs,CA(US) . 2005

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Temperature and Composition Dependent Structural Evolution of AgPd Bimetallic Nanoparticle: Phase Diagram of (AgPd)_(151) Nanoparticle

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