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Chemical Vapor Deposition Technology of (Ba,Sr)TiO3 Thin Films for Gbit-Scale Dynamic Random Access Memories

Published online by Cambridge University Press:  10 February 2011

Tsuyoshi Horikawa ,
Masayoshi Tarutani ,
Takaaki Kawahara ,
Mikio Yamamuka ,
Noriko Hirano ,
Takehiko Sato ,
Shigeru Matsuno ,
Teruo Shibano ,
Fusaoki Uchikawa  and
Kouichi Ono
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Tsuyoshi Horikawa
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Masayoshi Tarutani
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Takaaki Kawahara
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Mikio Yamamuka
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Noriko Hirano
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Takehiko Sato
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Shigeru Matsuno
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Teruo Shibano
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Fusaoki Uchikawa
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
Kouichi Ono
Affiliation:
Department of Aeronautics and Astronautics, Graduate School of Engineering, Kyoto University, Yoshida-Honmachi, Sakyo-ku, Kyoto 606-8501, Japan
Tatsuo Oomori
Affiliation:
Advanced Technology R&D Center, Mitsubishi Electric Corporation 8-1-1, Tsukaguchi-Honmachi, Amagasaki 661-8661, Japan
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Abstract

The current status of (Ba,Sr)TiO3 [BST] capacitor technology using a liquid source chemical vapor deposition (CVD) method is reviewed, focusing on the CVD techniques and the physical, electrical and process-integration-related properties of Ru/BST/Ru capacitors. The use of a new titanium metalorganic (MO) source, titanium bis(tert-butoxy) bis(dipivaloylmethanato) [Ti(tertBuO)2 (DPM)2] dissolved in tetrahydrofuran (THF) turned out to enable highly conformal deposition of BST films with a coverage ratio of ∼ 70 % for a trench with an aspect ratio of ∼ 5. Electrical properties of a 24-nm-thick BST film, deposited on a Pt substrate at a low substrate temperature of 480 °C, were also confirmed to be equivalent SiO2 thickness (teq) of ∼ 0.5 nm and leakage current of ∼ 1 ×10-7 A/cm2 at 1 V. As for the Ru/BST/Ru capacitors, no deteriorations of Ru electrode and BST/Ru interface were observed after 750 °C post-annealing experiment, showing good thermal stability of Ru as a practical electrode material. Although current leak through Ru/BST/Ru capacitors slightly increased after the H2 annealing, such degradation in the leakage properties was restored by post-annealing in N2 ambience. Integrated Ru/BST/Ru capacitors with a 30-nm-thick CVD-BST film were fabricated by 0.5 μm ULSI technology, and low leakage current was confirmed for the stacked capacitors. Regarding the reproducibility of BST deposition by the liquid source CVD method, the deviation ratio of ∼ ± 2.3 % in film thickness was obtained for ∼ 100 successive depositions, thickness uniformity across the wafers was ∼ ± 1.1 %. The above results imply the potential applicability of BST capacitor technology using a liquid source CVD method for Gbit-scale DRAMs.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 541: Symposium O – Ferroelectric Thin Films VII , 1998 , 3
Copyright
Copyright © Materials Research Society 1999

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References

REFERENCES

1. Yuuki, A., Yamamuka, M., Makita, T., Horikawa, T., Shibano, T., Hirano, N., Maeda, H., Mikami, N., Ono, K, Ogata, H., and Abe, H., Tech. Dig. IEDM 1995, 115118.Google Scholar
2. Yamamichi, S., Lesaicherre, P-Y., Yamaguchi, H., Takemura, K., Sone, S., Yabuta, H., Sato, K., Tamura, T., Nakajima, K., Ohnishi, S., Tokashiki, K., Hayashi, Y., Kato, Y., Miyasaka, Y., Yoshida, M., and Ono, H., Tech. Dig. IEDM 1995, 119122.Google Scholar
3. Ono, K., Horikawa, T., Shibano, T., Mikami, N., Kuroiwa, T., Kawahara, T., Matsuno, S., Uchikawa, F., Satoh, S., and Abe, H., Tech. Dig. IEDM 1998, 803806.Google Scholar
4. Kawahara, T., Yamamuka, M., Makita, T., Naka, J., Yuuki, A., Mikami, N. and Ono, K., Jpn. J. Appl. Phys., 33, 51295134 (1995).Google Scholar
5. Kawahara, T., Yamamuka, M., Yuuki, A. and Ono, K., Jpn. J. Appl. Phys., 34, 50775082 (1995).Google Scholar
6. Yamamuka, M., Kawahara, T., Tarutani, M., Horikawa, T. and Ono, K., 19th Symp. Dry Process 1997, 343348.Google Scholar
7. Kawahara, T., Matsuno, S., Yamamuka, M., Tarutani, M. Sato, T., Horikawa, T., Uchikawa, F., and Ono, K., Ext. Abstr. SSDM 1998, 5051.Google Scholar
8. Ogi, K. and Itsuki, A., Proc. 51th Symp. Semiconductors and Integrated Circuits Tech., 6065 (1996) [in Japanese].Google Scholar
9. Khamankar, R., Jiang, B., Tsu, R., Hsu, W.-Y, Nulman, J., Summerfelt, S., Anthony, J. M., and Lee, J. C., Symp. VLSI Tech Tech. Dig. 1995, 128129.Google Scholar