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Growth Kinetics and Materials Properties of Cu5Si

Published online by Cambridge University Press:  25 February 2011

S. Hymes ,
S.P. Murarka ,
PJ. Ding ,
W. Wang  and
W.A. Lanford
S. Hymes
Affiliation:
Center for Integrated Electronics, Materials Engineering Department, Rensselaer Polytechnic Institute, Troy, NY, 12180
S.P. Murarka
Affiliation:
Center for Integrated Electronics, Materials Engineering Department, Rensselaer Polytechnic Institute, Troy, NY, 12180
PJ. Ding
Affiliation:
Center for Integrated Electronics, Materials Engineering Department, Rensselaer Polytechnic Institute, Troy, NY, 12180 Physics Department, State University of New York at Albany, Albany, NY, 12222
W. Wang
Affiliation:
Physics Department, State University of New York at Albany, Albany, NY, 12222
W.A. Lanford
Affiliation:
Physics Department, State University of New York at Albany, Albany, NY, 12222
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Abstract

Thin copper films have been passivated by exposure to a dilute silane mixture (2% SiH4/Ar) at temperatures in the range of 225 - 375 °C. Previous XRD characterization indicates the surface layer to be Cu5Si[l]. Subsequently, the growth kinetics were examined by sheet resistance (Rs), RBS and step height measurements. Two distinct growth regimes are observed. The flow rate and time dependencies of the low temperature growth indicate parabolic solid state diffusion limited growth. The corresponding activation energy is 0.7 eV. A mass transport limitation is evidenced at higher temperatures. In addition, the biaxial stress and adhesion responses have been observed using the substrate curvature technique and scotch tape peel tests, respectively. A biaxial modulus (Eb) of 2.9x1011 Pa and coefficient of thermal expansion (CTE) of 8.6xl0-6 /°C have been determined from stress temperature cycling on Si and a-quartz substrates.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 337: Symposium B – Advanced Metallization for Devices and Circuits—Science, Technology and Manufacturing III , 1994 , 189
Copyright
Copyright © Materials Research Society 1994

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References

REFERENCES

1 Hymes, S., Murarka, S.P., Shepard, C. and Lanford, W.A., Advanced Metallization for ULSI Applications (Formerly Workshop on Tungsten and other Advanced Metals for ULSI) Oct. 8-10, 1991, AT&T Lab., Murray Hill, NJ, Conf. Proc. ULSI-VII, 1992 MRS, Pittsburgh, PA, pp. 425-431; /. Applied Physics, 71, (9), 4623–25 (1992).CrossRefGoogle Scholar
2 Murarka, S.P., Metallization: Theory and Practice for VLSI and ULSI. (Butterworth-Heinemann, Stoneham, MA, 1993), p. 70.Google Scholar
3 Hymes, S. (unpublished).Google Scholar