Lattice-Symmetry-Driven Epitaxy of Hierarchical GaN Nanotripods

Ping Wang, Xinqiang Wang*, Tao Wang, Chih Shan Tan, Bowen Sheng, Xiaoxiao Sun, Mo Li, Xin Rong, Xiantong Zheng, Zhaoying Chen, Xuelin Yang, Fujun Xu, Zhixin Qin, Jian Zhang, Xixiang Zhang, Bo Shen

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

20 Scopus citations

Abstract

Lattice-symmetry-driven epitaxy of hierarchical GaN nanotripods is demonstrated. The nanotripods emerge on the top of hexagonal GaN nanowires, which are selectively grown on pillar-patterned GaN templates using molecular beam epitaxy. High-resolution transmission electron microscopy confirms that two kinds of lattice-symmetry, wurtzite (wz) and zinc-blende (zb), coexist in the GaN nanotripods. Periodical transformation between wz and zb drives the epitaxy of the hierarchical nanotripods with N-polarity. The zb-GaN is formed by the poor diffusion of adatoms, and it can be suppressed by improving the ability of the Ga adatoms to migrate as the growth temperature increased. This controllable epitaxy of hierarchical GaN nanotripods allows quantum dots to be located at the phase junctions of the nanotripods and nanowires, suggesting a new recipe for multichannel quantum devices.

Original languageEnglish
Article number1604854
JournalAdvanced Functional Materials
Volume27
Issue number9
DOIs
StatePublished - 3 Mar 2017

Keywords

  • gallium nitride
  • hierarchical nanotripods
  • lattice symmetry
  • microstructures
  • molecular beam epitaxy
  • nanowires

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