Kinetic Engineering of Wurtzite and Zinc-Blende AlSb Shells on InAs Nanowires

Hanna Kindlund, Reza R. Zamani, Axel R. Persson, Sebastian Lehmann, L. Reine Wallenberg, Kimberly A. Dick

Research output: Contribution to journalArticlepeer-review

Abstract

Using AlSb as the model system, we demonstrate that kinetic limitations can lead to the preferential growth of wurtzite (WZ) AlSb shells rather than the thermodynamically stable zinc-blende (ZB) AlSb and that the WZ and ZB relative thickness can be tuned by a careful control of the deposition parameters. We report selective heteroepitaxial radial growth of AlSb deposited by metal-organic vapor phase epitaxy (MOVPE) on InAs nanowire core templates with engineered lengths of axial WZ and ZB segments. AlSb shell thickness, crystal phase, nanostructure, and composition are investigated as a function of the shell growth temperature, Ts, using scanning electron microscopy, transmission electron microscopy, electron tomography, and energy-dispersive X-ray spectroscopy. We find that ZB- and WZ-structured AlSb shells grow heteroepitaxially around the ZB and WZ segments of the InAs core, respectively. Surprisingly, at 390 < Ts < 450 °C, the WZ-AlSb shells are thicker than the ZB-AlSb shells, and their thickness increases with decreasing Ts. In comparison, the ZB-AlSb shell thicknesses increase slightly with increasing Ts. We find that the increased thickness of the WZ-AlSb shells is due to the formation and enhanced deposition on {112-0} facets rather than on the more commonly grown {101-0} sidewall facets. Overall, these results, which are in direct contrast with previous reports suggesting that heteroepitaxial radial growth of III-antimonides is always favored on the ZB-structure facets, indicate that the growth of WZ-AlSb is preferred over the thermodynamically stable ZB-AlSb at lower growth temperatures. We attribute this behavior to kinetic limitations of MOVPE of AlSb on ZB and WZ phases of InAs.

Original languageEnglish
Pages (from-to)5775-5781
Number of pages7
JournalNano Letters
Volume18
Issue number9
DOIs
Publication statusPublished - 2018

Subject classification (UKÄ)

  • Condensed Matter Physics
  • Nano Technology
  • Materials Chemistry

Free keywords

  • AlSb
  • aluminum antimonide
  • Core-shell nanowire
  • selective radial growth

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