Rs. Boorse et Jm. Burlitch, MOCVD ROUTE TO STABLE, OXYGEN-RICH, CHROMIUM-OXIDE FILMS AND THEIR CONVERSION TO EPITAXIAL CR2O3, Chemistry of materials, 6(9), 1994, pp. 1509-1515
Using Cr(acac)3 as a precursor, deposition of chromium oxide onto sili
con and Al2O3 by MOCVD produced 800 angstrom to 2 mum thick films, whi
ch were characterized by IR, UV-vis spectroscopies, YPS, oxygen and ca
rbon resonance RBS, and XRD, as well as optical and electron microscop
ies. Optimization of deposition conditions such as precursor temperatu
re, carrier gas type and flow rate, substrate type and temperature, an
d postdeposition anneal yielded smooth, crystalline, epitaxially orien
ted films of Cr2O3 on single crystalline Al2O3 substrates. Deposition
under flowing 02 at 400-900-degrees-C produced discontinuous Cr2O3 fil
MS comprised of 1-20 mum diameter crystallites the orientation of whic
h was dependent on the substrate. Deposition at 300-350-degrees-C unde
r 02 and at 300-500-degrees-C under N2 produced very smooth films of C
r2Ox (3.2 less-than-or-equal-to x less-than-or-equal-to 4.9); such fil
ms contained some crystalline Cr2O3. XPS analysis of these oxygen-rich
films revealed the presence of chromium in oxidation states, III (maj
or), IV, and VI. The Cr2O3.5 films did not lose oxygen upon firing to
1100-degrees-C under argon, but were cleanly converted to smooth, epit
axial Cr2O3 at 1300-degrees-C.