Aluminum oxide/titanium dioxide nanolaminates grown by atomic layer deposition : Growth and mechanical properties
Ylivaara, O. M. E., Kilpi, L., Liu, X., Sintonen, S., Ali, S., Laitinen, M., Julin, J., Haimi, E., Sajavaara, T., Lipsanen, H., Hannula, S.-P., Ronkainen, H., & Puurunen, R. L. (2017). Aluminum oxide/titanium dioxide nanolaminates grown by atomic layer deposition : Growth and mechanical properties. Journal of Vacuum Science and Technology A, 35(1), Article 01B105. https://doi.org/10.1116/1.4966198
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Journal of Vacuum Science and Technology AAuthors
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2017Copyright
© 2016 American Vacuum Society. This is a final draft version of an article whose final and definitive form has been published by AIP. Published in this repository with the kind permission of the publisher.
Atomic layer deposition (ALD) is based on self-limiting surface reactions. This and cyclic process enable the growth of conformal thin films with precise thickness control and sharp interfaces. A multilayered thin film, which is nanolaminate, can be grown using ALD with tuneable electrical and optical properties to be exploited, for example, in the microelectromechanical systems. In this work, the tunability of the residual stress, adhesion, and mechanical properties of the ALD nanolaminates composed of aluminum oxide (Al 2O3) and titanium dioxide (TiO2) films on silicon were explored as a function of growth temperature (110–300 °C), film thickness (20–300 nm), bilayer thickness (0.1–100 nm), and TiO2 content (0%–100%). Al 2O3 was grown from Me3 Al and H2O, and TiO2 from TiCl4 and H2O. According to wafer curvature measurements, Al 2O3/TiO2 nanolaminates were under tensile stress; bilayer thickness and growth temperature were the major parameters affecting the stress; the residual stress decreased with increasing bilayer thickness and ALD temperature. Hardness increased with increasing ALD temperature and decreased with increasing TiO2 fraction. Contact modulus remained approximately stable. The adhesion of the nanolaminate film was good on silicon.
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American Institute of PhysicsISSN Search the Publication Forum
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