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Gravimetric Measurements of Moisture Uptake in Polyimide Films Used in Integrated Circuit Packaging

Published online by Cambridge University Press:  21 February 2011

Denice D. Denton  and
Hartono Pranjoto
Denice D. Denton
Affiliation:
Department of Electrical and Computer Engineringand Materials Science ProgramUniversity of Wisconsin-Madison, 1415 Johnson Dr., Madison, WI 53706
Hartono Pranjoto
Affiliation:
Department of Electrical and Computer Engineringand Materials Science ProgramUniversity of Wisconsin-Madison, 1415 Johnson Dr., Madison, WI 53706
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Abstract

Polyimide is used extensively in a variety of integrated circuit packaging applications. It is a good dielectric material with excellent planarizing capabilities, but like most polymers, it absorbs moisture. This hygroscopic behavior can lead to reliability problems in integrated circuit packages. The effects of variations in process history on moisture uptake are examined using gravimetric measurement techniques. In particular, the effects of cure schedule and exposure to high temperature/high humidity environments on steady state moisture uptake are reported. Steady state moisture uptake is shown to be a decreasing function of cure temperature. Moreover, the steady state moisture uptake in polyimide is greater after the samples have been “aged” in a high temperature and humidity ambient. Electrical measurements are used to examine the effects of cure temperature on diffusion kinetics of moisture in polyimide. The diffusion coefficient decreases with increasing cure temperature.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 154: Symposium K – Electronic Packaging Materials Science IV , 1989 , 97
Copyright
Copyright © Materials Research Society 1989

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References

[1] Wilson, A. M., ”Polyimide Insulators for Multilevel Interconnections”, Thin Solid Films, 1981, pp. 145–163.Google Scholar
[2] Burggraaf, P., “Polyimides in Microelectronics”, Semiconductor International, March 1988.Google Scholar
[3] Ruska, W. S., Microelectronic Processing, (McGraw Hill, New York, 1987), pp. 290291.Google Scholar
[4] Shah, P., Laks, D., Wilson, A., “High Performance, High Density MOS Process Using Polyimide Interlevel Insulation”, IEEE Proc. IEDM, paper 20.4, 1979, pp. 465–468.Google Scholar
[5] Jensen, R. J., Cummings, J. P., Vora, H., “Copper/Polyimide Material System for High Performance Packaging”, IEEE Transactions on Components, Hybrids, and Manufacturing Technology, 7, 4, 1984, pp. 384393.Google Scholar
[6] Bartlett, C. J., Segelken, J. M., and Teneketges, N. A., “Multichip Packaging Design for VLSIBased Systems”, IEEE Transactions on Components, Hybrids, and Manufacturing Technology, 10, 4, 1987, pp. 647653.Google Scholar
[7] Denton, D. D., Day, D. R., Priore, D. F., Senturia, S. D., Anolick, E. S., and Scheider, D., “Moisture Diffusion in Polyimide Films in Integrated Circuits”, Journal of Electronic Materials, 14, 2, 1985, pp. 119136.Google Scholar
[8] Homma, Y., Yajima, A., and Horada, S., ”Feature Size Limit of Liftoff Metalization Technology”, IEEE Transactions on Electron Devices, 29, 4, 1982, pp. 753758.Google Scholar
[9] Rothman, L. B., ”Properties of Thin Film Polyimide Films”, Journal of the Electrochemical Society, 127, 10, 1980, pp. 22162220.Google Scholar
[10] Senturia, S. D., Miller, R. A., Denton, D. D., Smith, F. W., and Neuhaus, H. J., “Polyimides and VLSI: A Research Perspective”, 2nd Conference on Polyimides, Ellenvile, NY, October 1985, pp. 107118.Google Scholar
[11] Turbon, G. and Repeaux, M., “Dry Etching of Polyimide in 02-CF4 and 02-SF6 Plasmas”, Journal of the Electrochemical Society, 130, 11, 1983, pp. 22312236.Google Scholar
[12] Denton, D. D. and Senturia, S. D., ”Fundamental Issues in the Design of Polymeric Capacitive Moisture Sensors”, Proceedings of the International Conference on Solid State Sensors and Acutators, Philadelphia, PA, 1985, pp. 202205.Google Scholar
[13] Russel, T. P., ”A Small-Angle X-Ray Scattering Study of an Aromatic Polyimide”, Journal of Polymer Science: Polymer Physics Edition, 22, 6, 1984, pp. 11051117.Google Scholar
[14] Denton, D. D., Moisture Transport in Polyimide Films in Integrated Circuits, Doctoral Thesis, Electrical Engineering Department, MIT, 1987.Google Scholar
[15] Denton, D. D., Camou, J. B., and Senturia, S. D., “Effects of Moisture Uptake on the Dielectric Permittivity of Polyimide Films”, Proc. Int'l. Symposium on Moisture and Humidity, Washington, D.C., 1985, pp. 505514.Google Scholar
[16] Crank, J., in The Mathematics of Diffusion 2nd edition, (Oxford University Press, Bristol, England, 1975), pp. 6061.Google Scholar
[17] Crank, J. and Park, G. S., in Diffusion in Polymers, (Academic Press, London and New York, 1968), p. 87.Google Scholar
[18] Ginsburg, R. and Susko, J. R., “Polyimide Cure Determinations”, Polyimides: Synthesis and Characterization, Plenum Press, New York, 1984, pp. 237247.Google Scholar
[19] Haight, R., White, R. C., Silverman, B. D., Ho, P.S., “Complex Formation and Growth at the Cr- and Cu-Polyimide Interface”, Journal Vacuum Science Technology A, 6, 4, 1988, pp. 21882199 Google Scholar