Metallic Oxynitride Thin Films by Reactive Sputtering and Related Deposition Methods: Process, Properties and Applications


Filipe Vaz, Nicolas Martin, Martin Fenker

DOI: 10.2174/97816080515641130101
eISBN: 978-1-60805-156-4, 2013
ISBN: 978-1-60805-157-1

Indexed in: EBSCO.

Oxynitride thin film technology is rapidly impacting a broad spectrum of applications, ranging from decorative functions (through opto...[view complete introduction]
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Gradual Evolution of the Properties in Titanium Oxynitride Thin Films

- Pp. 113-132 (20)

Jean-Marie Chappé and Nicolas Martin


Titanium oxynitride thin films were deposited by dc reactive magnetron sputtering. The reactive gas pulsing process, namely RGPP, was used to modify the oxygen and nitrogen concentrations in titanium oxynitride thin films TiO<sub>x</sub>N<sub>y</sub>. Nitrogen gas was constantly introduced into the sputtering process, whereas oxygen mass flow rate was periodically changed vs. time. A rectangular pulsing pattern was implemented and the duty cycle α, defined from the introduction time of oxygen, was systematically modified from 0 to 100 % of the pulsing period T maintained at 45 s. In this way, the chemical composition of TiO<sub>x</sub>N<sub>y</sub> sputter deposited coatings was tuned from pure metallic titanium nitride TiN to titanium dioxide TiO<sub>2</sub> through various metalloid concentrations, i.e., x varied from 0 to 2.0 and y inversely reduced from 1.0 to 0. Such tuneable chemical compositions led to a gradual and smooth transition of optical and electrical properties of the films. Optical transmittance in the visible range was null for oxygen contents lower than 30 at. % and was higher than 75 % for the highest oxygen contents (> 60 at. %). A progressive evolution of the transmittance was observed for intermediate oxygen contents. Similarly, electrical conductivity was close to 10<sup>5</sup> S. m<sup>-1</sup> for the lowest oxygen concentrations and dropped down to few S m<sup>-1</sup> as oxygen concentration increased. This gradual evolution from metallic to semiconducting and finally dielectric behaviours correlates well with the occurrence of f.c.c. NaCl-type phase in an amorphous TiO<sub>2</sub> matrix. This f.c.c. phase vanishes as a function of the oxygen concentration in the films leading to an amorphous structure and typical dielectric characteristics.

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