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Determination of the Modulus and Hardness of Spin-on Zeolite Low-K Thin Films

Published online by Cambridge University Press:  01 February 2011

Mark Johnson
Affiliation:
Department of Mechanical Engineering
Zijian Li
Affiliation:
Department of Chemical and Environmental Engineering, University of California, Riverside, CA 92521
Yushan Yan
Affiliation:
Department of Chemical and Environmental Engineering, University of California, Riverside, CA 92521
Junlan Wang
Affiliation:
Department of Mechanical Engineering
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Abstract

With the semiconductor technologies continuously pushing the miniaturization limits, there is a growing interest in developing novel low dielectric constant (low-k) materials to replace traditional dense SiO2 based insulators. In order to survive the multi-step integration process and provide reliable material and structure for the desired integrated circuit (IC) functions, the new low-k materials have to be mechanically strong and stable. Thus the material selection and mechanical characterization are vital in the successful development of next generation low-k dielectrics. A new class of low-k dielectric materials, nanoporous pure-silica zeolite, is prepared in thin films using IC compatible spin coating process and characterized using depth sensing nanoindentation technique. The elastic modulus measurements of the zeolite thin films are found to be significantly higher than that of other porous silicates with similar porosity and dielectric constants. Correlations of the mechanical, microstructural and electrical properties are discussed in detail.

Type
Research Article
Copyright
Copyright © Materials Research Society 2005

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References

1 Yan, Y., Li, S., and Li, Z., Zeolite News Letters 20 (2003) 111.Google Scholar
2 Baerlocher, W.M.M. Ch., Olson, D.H., Atlas of zeolite framework types. Amsterdam; Elsevier. New York, 2001.Google Scholar
3 Wang, Z., Mitra, A., Wang, H., Huang, L., and Yan, Y., Adv. Mater. 13 1463.Google Scholar
4 Li, Z., Li, S., Medina, D.I., Lew, C., and Yan, Y., Journal of Physical Chemistry B (submitted).Google Scholar
5 Li, Z.J., Li, S., and Yan, Y.S., Advanced Functional Materials 14 (2004) 1019.Google Scholar
6 Li, Q., Creaser, D., and Sterte, J., Micro. Meso. Mater 31 (1999) 141.Google Scholar
7 Dong, J., Zou, J., and Long, Y., Micro. Meso. Mater 57 (2003) 9.Google Scholar
8 Oliver, W.C. and Pharr, G.M., Journal of Materials Research 7(6) (1992) 1564.Google Scholar
9 Shen, L. and Zeng, K., Microelectronic Engineering 71 (2004) 221.Google Scholar
10 Vella, J.B., Volinsky, A.A., Adhihetty, I.S., Edwards, N.V., and Gerberich, W.W., Mat. Res. Soc. Symp. Proc. 716 (2002) B12.13.Google Scholar