Cristiano Nisoli, Douglas Abraham, Turab Lookman, Avadh Saxena
Published 2009-04-08Version 1
Stranski-Krastanov strained islands undergo a shape anisotropy transition as they grow in size, finally evolving toward nanowires. This effect has been explained until now via simple energetic models that neglect thermodynamics. We investigate theoretically the stability of strained nanowires under thermal fluctuations of the long side. We find phase transitions from nanowires back to nanoislands as the temperature is increased and as the height of the nanostructure is raised or lowered and we predict regions of phase coexistence. Our results are general, but explain recent data on the growth of erbium silicide on a vicinal Si surface.
Mechanical and Thermal Stability of Graphyne and Graphdiyne Nanoscrolls
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Thermal stability of monolayer $WS_2$ in BEOL conditions
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