L. Bajtošová, Barbora Kihoulou, R. Králík, Jan Hanuš, M. Cieslar
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引用次数: 0
摘要
本研究采用原位透射电子显微镜退火和分子动力学模拟等综合方法研究了镍纳米粒子(Ni NPs)的烧结动力学。该研究系统地考察了镍纳米粒子团聚体在从室温到 850 °C 的温度范围内的转变行为。在分子动力学模拟的支持下,实验观察揭示了颗粒旋转和平移运动对烧结结果的重要影响,尤其是在较低温度下。颗粒的取向对烧结过程的影响也得到了证实,初始构型对烧结效率和动力学具有显著的决定作用。这项研究计算出的活化能与文献报道的活化能相同,证实了表面扩散是驱动镍 NPs 烧结的主要机制。
Nickel Nanoparticles: Insights into Sintering Dynamics
The sintering dynamics of nickel nanoparticles (Ni NPs) were investigated through a comprehensive approach that included in situ transmission electron microscopy annealing and molecular dynamics simulations. This study systematically examines the transformation behaviors of Ni NP agglomerates over a temperature spectrum from room temperature to 850 °C. Experimental observations, supported by molecular dynamics simulations, revealed the essential influence of rotational and translational motions of particles, especially at lower temperatures, on sintering outcomes. The effect of the orientation of particles on the sintering process was confirmed, with initial configurations markedly determining sintering efficiency and dynamics. Calculated activation energies from this investigation follow those reported in the literature, confirming surface diffusion as the predominant mechanism driving the sintering of Ni NPs.
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