1. Diffusion Barrier Properties of Metallorganic Chemical Vapor Deposited Tantalum Nitride Films Against Cu Metallization
- Author
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Sam‐Dong Kimd, Sung-Lae Cho, Seok-Hong Min, Ki-Bum Kim, and Hyun-Kook Shin
- Subjects
Auger electron spectroscopy ,Diffusion barrier ,Renewable Energy, Sustainability and the Environment ,Annealing (metallurgy) ,Tantalum ,Analytical chemistry ,chemistry.chemical_element ,Mineralogy ,Chemical vapor deposition ,Condensed Matter Physics ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,Volumetric flow rate ,chemistry.chemical_compound ,chemistry ,Tantalum nitride ,Electrical resistivity and conductivity ,Materials Chemistry ,Electrochemistry - Abstract
TaN x films were deposited by chemical vapor deposition using a pentakis(diethylamido)tantalum (PDEAT) source with and without NH 3 at temperatures ranging from 300 to 375°C. It was observed that both the resistivity and carbon content of the film drastically decreased upon the addition of NH 3 . For example, the resistivity decreased from 60,000 to 12,000 μΩ cm, and the apparent carbon content obtained by Auger electron spectroscopy decreased from 30 to 1 atom % by the addition of 25 sccm NH 3 . The grain size initially increased with the addition of 5 sccm NH 3 in the source gas, but then decreased as the NH 3 flow rate was increased to more than 10 sccm. As-deposited TaN x film has a face-centered cubic structure irrespective of the amount of NH 3 . The density of the film increased from about 5.1 to 7.2 g cm -3 (bulk density of TaN: 16.3 g cm -3 ). Barrier failure results identified by the etch-pit test showed that a 50 nm thickness of the TaN x barrier deposited by a single source of PDEAT survived up to 500°C after 1 h annealing. The TaN x film deposited with 25 sccm NH 3 survived up to 550°C after 1 h annealing. However, the step coverage of the films deposited with NH 3 is drastically decreased, from more than 80% (NH 3 = 0 sccm) to less than 10% (NH 3 = 25 sccm). Thus, while the addition of NH 3 significantly improves both the resistivity and carbon content in the film, it deteriorates the step coverage of the film.
- Published
- 1999