DOI

The vapor–liquid–solid growth of III-V nanowires proceeds via the mononuclear regime, where only one island nucleates in each nanowire monolayer. The expansion of the monolayer is governed by the surface energetics depending on the monolayer size. Here, we study theoretically the role of surface energy in determining the monolayer morphology at a given coverage. The optimal monolayer configuration is obtained by minimizing the surface energy at different coverages for a set of energetic constants relevant for GaAs nanowires. In contrast to what has been assumed so far in the growth modeling of III-V nanowires, we find that the monolayer expansion may not be a continuous process. Rather, some portions of the already formed monolayer may dissolve on one of its sides, with simultaneous growth proceeding on the other side. These results are important for fundamental understanding of vapor–liquid–solid growth at the atomic level and have potential impacts on the statistics within the nanowire ensembles, crystal phase, and doping properties of III-V nanowires.

Original languageEnglish
Article number1681
Number of pages7
JournalNanomaterials
Volume11
Issue number7
DOIs
StatePublished - Jul 2021

    Scopus subject areas

  • Chemical Engineering(all)
  • Materials Science(all)

    Research areas

  • Monolayer step, Nanowires, Surface energy, Vapor–liquid–solid growth, monolayer step, nanowires, surface energy, vapor-liquid-solid growth

ID: 88770277