Thickness- and temperature-dependent Gruneisen parameter in thin films

YC Jiang and S Sun and TY Zhang, NANOSCALE, 13, 9853-9863 (2021).

DOI: 10.1039/d1nr01164b

The Gruneisen formula is one of the most important equations of state, in which the Gruneisen parameter plays a key role in the linkage of mechanical and thermal properties of materials. In the present work, for the first time, we investigate the dependence of the Gruneisen parameter on film-thickness and temperature via theoretical modeling and molecular dynamics (MD) simulations. The theoretical analysis gives two analytic expressions of a thickness- and temperature-dependent Gruneisen parameter, and the difference between the two analytic expressions lies in the quadratic or linear dependence on temperature. MD simulations are conducted on face-centered cubic (FCC) Ni, Cu, and Au (001) thin films and their bulk counterparts. The simulation results completely verify the theoretical results and determine the values of parameters involved in the theoretical modeling. The thickness- and temperature-dependent film heat capacity density is also investigated during the course of the Gruneisen parameter study.

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