AIP Advances (Dec 2016)

Temperature effect on the structural stabilities and electronic properties of X22H28 (X=C, Si and Ge) nanocrystals: A first-principles study

  • Xiao-Lin Deng,
  • Yu-Jun Zhao,
  • Ya-Ting Wang,
  • Ji-Hai Liao,
  • Xiao-Bao Yang

DOI
https://doi.org/10.1063/1.4973332
Journal volume & issue
Vol. 6, no. 12
pp. 125112 – 125112-8

Abstract

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Based on ab initio molecular dynamic simulations, we have theoretically investigated the structural stabilities and electronic properties of X22H28 (X=C, Si, and Ge) nanocrystals, as a function of temperature with consideration of vibrational entropy effects. To compare the relative stabilities of X22H28 isomers, the vibration free energies are obtained according to the calculated phonon spectrum, where the typical modes are shown to be dominant to the structural stabilities. In addition, there is a significant gap reduction as the temperature increases from 0 K to 300 K, where the decrements are 0.2 /0.5 /0.6eV for C/Si/Ge nanocrystals, respectively. The dependence of energy gap on the variance of bond length is also analyzed according to the corresponding atomic attributions to the HOMO and LUMO levels.