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Chemical vapor deposition of copper thin films for multi-level interconnections

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https://www.riss.kr/link?id=E805328

저자

Cho, Nam-Ihn ; Nam, H. Gin ; Choi, Yong ; Yang, Jong-Soo
발행기관

Elsevier Science B.V
발행연도
2003년
작성언어
English
KDC
410.000
자료형태

한국연구재단(NRF)
수록면
416-451

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다국어 초록 (Multilingual Abstract)

Copper thin films were prepared by a metal organic chemical vapor deposition technology on top of TiN/Si substrates, and the films were examined by varying the experimental substrate temperature and copper source vapor pressure. Emerging semiconductor...

Copper thin films were prepared by a metal organic chemical vapor deposition technology on top of TiN/Si substrates, and the films were examined by varying the experimental substrate temperature and copper source vapor pressure. Emerging semiconductor sub-quarter-micron technologies require a multi-level interconnection design that reduces the interconnection lengths and enhances device speeds. The microstructures of the Cu film were analyzed by transmission electron microscopy and transmission electron diffraction (TEM/TED) and the electrical resistance was measured by a four-point probe. The crystallinity of the Cu films increased as the substrate reaction temperature increased. The optimum reaction temperature was 180℃. The effect of annealing on the electrical conductivity of the Cu films was also determined. The results indicate that the grain size and crystallinity of the films were observed to increase post-annealing, and thus the electrical conductivity was increased. The optimum electrical property of the copper film was obtained by in-situ annealing treatment at>350 ℃ for a sample prepared at 180℃ substrate temperature. This technology is suitable for multi-level interconnections in ultra-large-scale integration, since intermetal dielectric materials require low-temperature processes.

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목차 (Table of Contents)

1. Introduction
2. Experimental methods
3. Results and discussion
4. Conclusions
Acknowledgments

1. Introduction
2. Experimental methods
3. Results and discussion
4. Conclusions
Acknowledgments
References

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