Molecular dynamics simulation of the sintering of metallic nanoparticles

被引:0
作者
Pengxiang Song
Dongsheng Wen
机构
[1] Queen Mary University of London,School of Engineering and Materials Science
来源
Journal of Nanoparticle Research | 2010年 / 12卷
关键词
Molecular dynamics; Nanoparticles; Melting; Sintering; Coalescence; Size-dependent property; Modeling and simulation;
D O I
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中图分类号
学科分类号
摘要
The sintering of two different-sized nickel nanoparticles is simulated by a molecular dynamics method in this work. The particles are partitioned into different regimes where tracing atoms are arranged to investigate the sintering kinetics. The detailed sintering process of two nanoparticles, 3.52 and 1.76 nm in diameter, respectively, is subsequently examined by the shrinkage ratio, gyration radius, mean square displacement, sintering diffusivity, and activation energy. A three-stage sintering scenario is established, and the layered structure shows a regime dependent behavior of diffusivity during the sintering process. Besides the surface diffusion, sintering of different-sized nanoparticles is found to be affected by a few other mechanisms.
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页码:823 / 829
页数:6
相关论文
共 46 条
  • [1] Arcidiacono S(2004)On the coalescence of gold nanoparticles Int J Multiph Flow 30 979-994
  • [2] Bieri NR(2006)Thermal stability of Fe, Co, Ni metal nanoparticles Phys Stat Sol (b) 243 2745-2755
  • [3] Poulikakos D(1985)Application of embedded-atom method to liquid transition metals Phys Rev B 32 3409-3415
  • [4] Grigoropoulos CP(2006)Coalescence kinetics of unequal sized nanoparticles Aerosol Sci 37 1-15
  • [5] Cao LF(2007)Molecular dynamics simulation and continuum modelling of straight-chain aggregate sintering: development of a phenomenological scaling law Phys Rev B 76 054109-35
  • [6] Xu GF(1998)Melting of surface-free bulk single crystals Philos Mag Lett 78 29-427
  • [7] Xie D(1990)The effect of particle coalescence on the surface area of a coagulating aerosol J Colloid Interface Sci 140 419-11182
  • [8] Guo MX(2007)Sintering of titanium dioxide nanoparticles: a comparison between molecular dynamics and phenomenological modeling J Nanopart Res 10 11069-2257
  • [9] Luo L(1997)Melting, freezing and coalescence of gold nanoclusters Phys Rev B 56 2248-111
  • [10] Li Z(2000)Coalescence of metallic clusters: a study by molecular dynamics Philos Mag B 80 95-13
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