Thermodynamics and kinetics of group-IV nanoparticles under pressure

Matteo Cococcioni; Francesco Mauri; Gerbrand Ceder; Nicola Marzari

Thermodynamics and kinetics of group-IV nanoparticles under pressure

ORAL

Abstract

The kinetics and thermodynamics of phase transformations in group-IV nanoparticles during a shock compression are studied with full first-principles molecular dynamics simulations. A novel electronic-enthalpy functional is introduced to describe accurately and efficiently finite-size quantum systems under pressure. Significant differences are found in the structural response of carbon, silicon and germanium nanoparticles, depending on size, composition, and surface structure. The presence of trapped metastable amorphous configurations for Si and bigger Ge nanoparticles highlights the importance of kinetics effects in the phase transformation. It also demonstrates the possibility of using nanoparticles to study bonding rearrangements and structural transformations which are not accessible to the bulk counterparts.

March 23, 2005, 6:12 AM – March 23, 2005, 6:24 AM

Authors

Matteo Cococcioni
- DMSE, MIT, Cambridge, MA 02139
- DMSE and ISN Massachusetts Institute of Technology
- DMSE and ISN, Massachusetts Institute of Technology
Francesco Mauri
- Universit\'e Pierre et Marie Curie
- LMCP Universite' Pierre et Marie Curie, Paris
Gerbrand Ceder
Nicola Marzari
- Department of Materials Science and Engineering, MIT
- DMSE, MIT, Cambridge, MA 02139
- Department of Materials Science and Engineering, Massachusetts Institute of Technology
- DMSE-MIT
- Department of Materials Science and Engineering and Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology
- DMSE and ISN Massachusetts Institute of Technology
- Materials Science and Engineering, MIT
- Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139