Issue 8, 2021

Roughening transition as a driving factor in the formation of self-ordered one-dimensional nanostructures

Abstract

Based on the kinetic Monte Carlo method, we investigated the formation mechanisms of periodical modulations arising along the length of one-dimensional structures. The evolution of initially cylindrical nanowires/slabs at temperatures lower than their respective melting temperatures can result either in breakup into single nanoclusters or in the formation of stable states with pronounced modulations of the cross section. We show that these modulations, excited in the ‘subcritical mode’ of wavelength λ < λcr = 2πrnw (rnw is the nanowire radius), correspond to the appearance of roughening transition on the quasi-one-dimensional surface of nanowires/slabs. The short-wavelength modulations of one-dimensional systems, as shown in our work, can be realized either by the proper orientation of the nanowire/slab axis, providing spontaneous appearance of roughening transition on its lateral surface, or by the method of activating the surface diffusion of atoms by an external impact (irradiation with an electron beam or contact with a cold plasma), which stimulates roughening transition without significant heating of the nanowire. For the cases of BCC and FCC lattices, we have demonstrated that it is possible to excite either metastable structures with a wavelength below the threshold of energetic instability, <4.5rnw, or unstable ones with substantially increased λ (λ ≳ 14rnw). The possibility of managing wavelengths of the long-wave perturbations makes it possible to control the distance between nanodroplets in the dynamic regime of nanowire breakup. The results obtained can be used in the controlled synthesis of ordered one-dimensional structures for applications in optoelectronics and ultra-large-scale integrated circuits.

Graphical abstract: Roughening transition as a driving factor in the formation of self-ordered one-dimensional nanostructures

Supplementary files

Article information

Article type
Paper
Submitted
24 Sep 2020
Accepted
06 Jan 2021
First published
10 Feb 2021

CrystEngComm, 2021,23, 1836-1848

Roughening transition as a driving factor in the formation of self-ordered one-dimensional nanostructures

V. N. Gorshkov, V. V. Tereshchuk and P. Sareh, CrystEngComm, 2021, 23, 1836 DOI: 10.1039/D0CE01404D

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