Publication date: 31 October 2017
Source:Thin Solid Films, Volume 640
Author(s): Xiao Bao Jiang, Bei Bei Xiao, Xiao Yan Gu, Xing Hua Zhang
Based on an analytical formulation for the size-dependent melting temperature, a simple thermodynamic model has been developed to describe the surface energy of nanocrystals γ (D ). The results show that, for face-centered cubic, body-centered cubic and hexagonal close packing metals, γ (D ) of nanocrystals/nanocavities decreases/increases as D drops. The effect of surface broken-bond number on γ (D ) has also been discussed. It is found that reducing the number of surface broken-bonds will slow down the decrease of γ (D ). For facets of nanocrystals with different broken-bond number, the difference in size-dependent surface bond contraction determines the variation intensity of surface energy. The model has also been used to describe γ (D ) of semiconductor Si nanocavities and bimetallic alloys nanocrystals. The predictions are in good agreement with the reported data and other theory model predictions.
Source:Thin Solid Films, Volume 640
Author(s): Xiao Bao Jiang, Bei Bei Xiao, Xiao Yan Gu, Xing Hua Zhang