Atomic Layer Deposition of Oxide Thin Films with Metal Alkoxides as Oxygen Sources

Author:

Ritala Mikko1,Kukli Kaupo1,Rahtu Antti1,Räisänen Petri I.1,Leskelä Markku1,Sajavaara Timo2,Keinonen Juhani2

Affiliation:

1. Department of Chemistry, University of Helsinki, Post Office Box 55, FIN-00014 University of Helsinki, Finland.

2. Accelerator Laboratory, University of Helsinki, Post Office Box 43, FIN-00014 University of Helsinki, Finland.

Abstract

A chemical approach to atomic layer deposition (ALD) of oxide thin films is reported here. Instead of using water or other compounds for an oxygen source, oxygen is obtained from a metal alkoxide, which serves as both an oxygen and a metal source when it reacts with another metal compound such as a metal chloride or a metal alkyl. These reactions generally enable deposition of oxides of many metals. With this approach, an alumina film has been deposited on silicon without creating an interfacial silicon oxide layer that otherwise forms easily. This finding adds to the other benefits of the ALD method, especially the atomic-level thickness control and excellent uniformity, and takes a major step toward the scientifically challenging and technologically important task of replacing silica as the gate dielectric in the future generations of metal oxide semiconductor field effect transistors.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

Reference22 articles.

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2. Semiconductor Industry Association National Technology Roadmap for Semiconductors: Technology Needs (Sematech Austin TX 1997). See also www.itrs.net/ntrs/publntrs.nsf.

3. Schulz M., Nature 399, 729 (1999).

4. Packan P. A., Science 285, 2079 (1999).

5. Muller D. A., et al., Nature 399, 758 (1999).

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