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我所曹媛媛讲师在国际期刊Journal of Applied Physics发表论文阅读次数 [2860] 发布时间 :2015-06-19 10:27:19

我所曹媛媛讲师论文:A nanoscale temperature-dependent heterogeneous nucleation theory,发表于国际期刊Journal of Applied Physics



A nanoscale temperature-dependent heterogeneous nucleation theory

Journal of Applied Physics 117(2015), 224303 (PDF-File)

Y. Y. Cao and G. W. Yang*

Classical nucleation theory relies on the hypothetical equilibrium of the whole nucleation system, and neglects the thermal fluctuations of the surface; this is because the high entropic gains of the (thermodynamically extensive) surface would lead to multiple stable states. In fact, at the nanometer scale, the entropic gains of the surface are high enough to destroy the stability of the thermal equilibrium during nucleation, comparing with the whole system. We developed a temperature-dependent nucleation theory to elucidate the heterogeneous nucleation process, by considering the thermal fluctuations based on classical nucleation theory. It was found that the temperature not only affected the phase transformation, but also influenced the surface energy of the nuclei. With changes in the Gibbs free energy barrier, nucleation behaviors, such as the nucleation rate and the critical radius of the nuclei, showed temperature-dependent characteristics that were different from those predicted by classical nucleation theory. The temperature-dependent surface energy density of a nucleus was deduced based on our theoretical model. The agreement between the theoretical and experimental results suggested that the developed nucleation theory has the potential to contribute to the understanding and design of heterogeneous nucleation at the nanoscale.