Abstract
La2O3 thin films were deposited by atomic layer deposition from a liquid heteroleptic La precursor, La(iPrCp)2(iPr-amd), with either water, ozone, ethanol, or both water and ozone (separated by a purge) as the oxygen source. The effect of the oxygen source on the film growth rate and properties such as crystallinity and impurities was studied. Saturation of the growth rate was achieved at 225 °C with O3 as the oxygen source. With water, very long purge times were used due to the hygroscopicity of La2O3 but saturation of the growth rate was not achieved. Interestingly, when an O3 pulse was added after the water pulse with a purge in between, the growth rate decreased and the growth saturated at 200 °C. With ethanol lanthanum hydroxide was formed instead of La2O3 at 200–275 °C whereas hexagonal La2O3 films were obtained at 300 °C but the growth was not saturative. Using the separate pulses of water and ozone in the same deposition provided the best results from the four studied deposition processes. After annealing the films deposited with the La(iPrCp)2(iPrAMD)/H2O/O3 process showed pure hexagonal phase in all the films regardless of the deposition temperature, whereas mixtures of cubic and hexagonal La2O3 were seen with the other processes.
Highlights
Lanthanum oxide La2O3 is an interesting material for microelectronic applications due to its high permittivity (~27 for hexagonal La2O3) [1] and wide band gap (~5.5 eV) [2]
We studied atomic layer deposition of La2O3 from a heteroleptic La precursor La(iPrCp)2(iPrAMD) with either H2O, O3, EtOH, or both H2O and O3 as the oxygen source
The choice of the oxygen source had a great effect on the growth rates, crystallinity, and impurity levels of the films
Summary
Lanthanum oxide La2O3 is an interesting material for microelectronic applications due to its high permittivity (~27 for hexagonal La2O3) [1] and wide band gap (~5.5 eV) [2]. La2O3 and La containing ternary oxides have been studied as a passivation layer on Ge [11,12,13] Another area of interest for La2O3 is optics because it is optically transparent over a wide wavelength range [14]. In La2O3 deposition the choice of oxygen source is more important than in most oxide processes because both water and ozone cause problems. We have reported ALD of Y, Pr, Gd and Dy oxides from the RE(iPrCp)2(iPrAMD) (RE = rare earth) precursors with either water or ozone as the oxygen source [27]. XRD and TOF-ERDA were measured from the annealed samples
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