Phase diagram on phase purity of InN grown pressurized-reactor MOVPE

Takeshi Kimura, Kiattiwut Prasertsuk, Yuantao Zhang, Yuhuai Liu, Takashi Hanada, Ryuji Katayama, Takashi Matsuoka

Research output: Contribution to journalArticlepeer-review

7 Citations (Scopus)

Abstract

InN epitaxial films are directly grown on sapphire (0001) substrates by using Pressurised-Reactor metalorganic vapour phase epitaxy (PR-MOVPE) system originally developed by ourselves. This system makes it possible to control the side wall of islands perpendicular to the substrate surface, which is important in the heteroepitaxial growth with large lattice-mismatch from the analogy of the GaN growth on sapphire substrates. This high pressure also leads to the growth at the higher temperature than that at the atmospheric pressure. In this paper, InN films are grown by PR-MOVPE at 2,400 Torr. Its polarity is nitrogen one, which has the superior efficiency to indium polarity in the capture of nitrogen at the growth front. To crystallographically identify films using the diffractions from sapphire (006), wurtzite (WZ) InN (002), zincblende (ZB) InN (111) and metallic indium (101), 2θ-ω scans and the pole figure measurements in X-ray diffraction are measured. From the pole figure measurements, the orientation and crystalline phases of grains in crystals are determined. The phase diagram between trimethylindium as an indium source flow rate and the growth temperature is drawn. The regions with pure WZ InN and with the incorporation of ZB phase and the metallic indium into WZ phase and the metal-indium are observed. It is also observed that the grains with WZ phase have c-axis normal to the (111) plane at the side wall of the ZB grains. Finally, the growth conditions for pure WZ InN make it clear by using PR-MOVPE.

Original languageEnglish
Pages (from-to)654-657
Number of pages4
JournalPhysica Status Solidi (C) Current Topics in Solid State Physics
Volume9
Issue number3-4
DOIs
Publication statusPublished - 2012 Mar 1

Keywords

  • InN
  • Wurtzite
  • XRD
  • Zincblende

ASJC Scopus subject areas

  • Condensed Matter Physics

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