First principles molecular dynamics simulations of pressure-induced structural transformations in silicon clusters

22 March 2001

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 114 (12) , 5358-5365
https://doi.org/10.1063/1.1345497

Abstract

Using a recently developed constant pressure ab initio molecular dynamics method for studying nonperiodic systems, we have investigated pressure-induced structural transformations in silicon clusters. Pressure is applied and tuned through a liquid described by a classical potential, while the clusters are treated within a density functional theory scheme. Pressure-induced transformations in the Si35H36 and Si71H60 clusters show common characteristics, with a tendency toward metallicity at high pressure and a hysteretic behavior when the pressure is released.

Keywords

This publication has 41 references indexed in Scilit:

Erratum: Shape Change as an Indicator of Mechanism in the High-Pressure Structural Transformations of CdSe Nanocrystals [Phys. Rev. Lett. 84, 923 (2000)]
Physical Review Letters, 2000
Shape Change as an Indicator of Mechanism in the High-Pressure Structural Transformations of CdSe Nanocrystals
Physical Review Letters, 2000
Ab InitioMolecular Dynamics with a Classical Pressure Reservoir: Simulation of Pressure-Induced Amorphization in a ${Si}_{35} H_{36}$ Cluster
Physical Review Letters, 2000
Structural transformations and metastability in semiconductor nanocrystals
Phase Transitions, 1999
Decomposition and Polymerization of Solid Carbon Monoxide under Pressure
Physical Review Letters, 1998
Solid-State Polymerization of Acetylene under Pressure:Ab InitioSimulation
Physical Review Letters, 1997
Ideal crystal stability and pressure-induced phase transition in silicon
Physical Review B, 1994
Structural Phase Transformations via First-Principles Simulation
Europhysics Letters, 1994
Nosé–Hoover chains: The canonical ensemble via continuous dynamics
The Journal of Chemical Physics, 1992
Soft-Sphere Equation of State
The Journal of Chemical Physics, 1970