PLoS ONE (Jan 2011)

Nanoscale footprints of self-running gallium droplets on GaAs surface.

  • Jiang Wu,
  • Zhiming M Wang,
  • Alvason Z Li,
  • Mourad Benamara,
  • Shibin Li,
  • Gregory J Salamo

DOI
https://doi.org/10.1371/journal.pone.0020765
Journal volume & issue
Vol. 6, no. 6
p. e20765

Abstract

Read online

In this work, the nanoscale footprints of self-driven liquid gallium droplet movement on a GaAs (001) surface will be presented and analyzed. The nanoscale footprints of a primary droplet trail and ordered secondary droplets along primary droplet trails are observed on the GaAs surface. A well ordered nanoterrace from the trail is left behind by a running droplet. In addition, collision events between two running droplets are investigated. The exposed fresh surface after a collision demonstrates a superior evaporation property. Based on the observation of droplet evolution at different stages as well as nanoscale footprints, a schematic diagram of droplet evolution is outlined in an attempt to understand the phenomenon of stick-slip droplet motion on the GaAs surface. The present study adds another piece of work to obtain the physical picture of a stick-slip self-driven mechanism in nanoscale, bridging nano and micro systems.