Melting and crystallization in Ni nanoclusters: The mesoscale regime
Abstract
We studied melting and freezing of Ni nanoclusters with up to 8007 atoms (5.7 nm) using molecular dynamics with the quantum-Sutten–Chen many-body force field. We find a transition from cluster or molecular behavior below ~500 atoms to a mesoscale nanocrystal regime (well-defined bulk and surface properties) above ~750 atoms (2.7 nm). We find that the mesoscale nanocrystals melt via surface processes, leading to Tm,N = Tm,bulk–alphaN^–1/3, dropping from Tm,bulk = 1760 K to Tm,336 = 980 K. Cooling from the melt leads first to supercooled clusters with icosahedral local structure. For N>400 the supercooled clusters transform to FCC grains, but smaller values of N lead to a glassy structure with substantial icosahedral character.
Additional Information
© 2001 American Institute of Physics. (Received 18 September 2000; accepted 30 March 2001) This research was supported by the DOE-ASCI-ASAP program. In addition, the facilities of the MSC are supported by grants from ARO-MURI, ARO-DURIP, Chevron Corporation, 3M, Dow Chemical, Kellogg, General Motors, Avery-Dennison, Seiko Epson, Asahi Chemical, and Beckman Institute.Attached Files
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Additional details
- Eprint ID
- 2347
- Resolver ID
- CaltechAUTHORS:QIYjcp01
- Department of Energy (DOE)
- Army Research Office (ARO)
- Chevron Corporation
- 3M
- Dow Chemical Company
- Kellogg
- General Motors
- Avery-Dennison
- Asahi Chemical
- Caltech Beckman Institute
- Created
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2006-03-28Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field