Grabowska, J;Kumar, RTR;McGlynn, E;Nanda, KK;Newcomb, SB;McNally, PJ;O'Reilly, L;Mosnier, JP;Henry, MO

2008

February

Thin Solid Films

Growth and characterisation of epitaxially ordered zinc aluminate domains on c-sapphire

Published

6 ()

CATALYTIC PROPERTIES SPINEL PARTICLES THIN-FILMS MORPHOLOGY INTERFACE GALLATE OXIDES SYSTEM AL2O3 SHAPE

516

1725

1735

Epitaxially ordered zinc aluminate domains with sub-micron dimensions are formed on bare c-sapphire substrates using a vapour phase method (with vapour generated by carbothermal reduction of ZnO) at various temperatures and growth durations. A zinc aluminate (ZnAl2O4) layer is formed by reaction of the source materials (Zn and O) with the substrate. We observe crystallites with a well-defined epitaxial relationship on the sapphire substrate in addition to polycrystalline material. The epitaxially oriented deposit displays the form of characteristically twinned (singly or multiply) grains of sub-micron dimensions with three variants, consistent with the c-sapphire substrate symmetry. Scanning electron microscopy and transmission electron microscopy studies show that the formation of these grains is associated with the presence of extended defects in the sapphire substrate. Epitaxially ordered grains formed at higher temperatures show a change in the nature of the twin boundaries and epitaxial relations as a function of growth time, attributed to the effects of annealing during growth. (c) 2007 Elsevier B.V. All rights reserved.

LAUSANNE

0040-6090

10.1016/j.tsf.2007.05.024