Coalescence phenomena in 1D silver nanostructures
Document Type
Article
Publication Date
7-30-2009
Abstract
Different coalescence processes on 1D silver nanostructures synthesized by a PVP assisted reaction in ethylene glycol at 160°C were studied experimentally and theoretically. Analysis by TEM and HRTEM shows different defects found on the body of these materials, suggesting that they were induced by previous coalescence processes in the synthesis stage. TEM observations showed that irradiation with the electron beam eliminates the boundaries formed near the edges of the structures, suggesting that this process can be carried out by the application of other means of energy (i.e.thermal). These results were also confirmed by theoretical calculations by Monte Carlo simulations using a Sutton-Chen potential. A theoretical study by molecular dynamics simulation of the different coalescence processes on 1D silver nanostructures is presented, showing a surface energy driven sequence followed to form the final coalesced structure. Calculations were made at 1000-1300K, which is near the melting temperature of silver (1234K). Based on these results, it is proposed that 1D nanostructures can grow through a secondary mechanism based on coalescence, without losing their dimensionality. © 2009 IOP Publishing Ltd.
Publication Source (Journal or Book title)
Journal of Physics Condensed Matter
Recommended Citation
Gutiérrez-Wing, C., Pérez-Alvarez, M., Mondragón-Galicia, G., Arenas-Alatorre, J., Gutiérrez-Wing, M., Henk, M., Negulescu, I., & Rusch, K. (2009). Coalescence phenomena in 1D silver nanostructures. Journal of Physics Condensed Matter, 21 (29) https://doi.org/10.1088/0953-8984/21/29/295301