Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires
Publication
, Journal Article
Li, N; Tan, TY; Gösele, U
Published in: Materials Research Society Symposium Proceedings
January 1, 2007
We formulate a global equilibrium model to describe the growth of 1-d nanostructures in the VLS process by including also the chemical tension in addition to the physical tensions. The chemical tension derives from the Gibbs free energy release due to the growth of a crystal layer. The system global equilibrium is attained via the balance of the static physical tensions and the dynamic chemical tension, which allows the system to reach the minimum Gibbs free energy state. The model predicts, and provides conditions for the growth of nanowires of all sizes exceeding a lower thermodynamic limit. The model also predicts the conditions distinguishing the growth of nanaohillocks from nanowires. © 2007 Materials Research Society.
Duke Scholars
Published In
Materials Research Society Symposium Proceedings
DOI
ISSN
0272-9172
Publication Date
January 1, 2007
Volume
1017
Start / End Page
20 / 25
Citation
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Li, N., Tan, T. Y., & Gösele, U. (2007). Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires. Materials Research Society Symposium Proceedings, 1017, 20–25. https://doi.org/10.1557/proc-1017-dd04-09
Li, N., T. Y. Tan, and U. Gösele. “Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires.” Materials Research Society Symposium Proceedings 1017 (January 1, 2007): 20–25. https://doi.org/10.1557/proc-1017-dd04-09.
Li N, Tan TY, Gösele U. Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires. Materials Research Society Symposium Proceedings. 2007 Jan 1;1017:20–5.
Li, N., et al. “Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires.” Materials Research Society Symposium Proceedings, vol. 1017, Jan. 2007, pp. 20–25. Scopus, doi:10.1557/proc-1017-dd04-09.
Li N, Tan TY, Gösele U. Chemical tension in VLS nanostructure growth process: From nanohillocks to nanowires. Materials Research Society Symposium Proceedings. 2007 Jan 1;1017:20–25.
Published In
Materials Research Society Symposium Proceedings
DOI
ISSN
0272-9172
Publication Date
January 1, 2007
Volume
1017
Start / End Page
20 / 25