Hostname: page-component-78c5997874-m6dg7 Total loading time: 0 Render date: 2024-11-13T02:25:28.711Z Has data issue: false hasContentIssue false
  • English
  • Français

Digital Optical Imaging Of Benzocyclobutene (Bcb) Thin Films On Silicon Wafers

Published online by Cambridge University Press:  15 February 2011

Robert A. DeVries ,
Reed A. Shick  and
Bethany K. Johnson
Robert A. DeVries
Affiliation:
The Dow Chemical Company, 677 Bldg, Midland, MI 48667
Reed A. Shick
Affiliation:
The Dow Chemical Company, 677 Bldg, Midland, MI 48667
Bethany K. Johnson
Affiliation:
The Dow Chemical Company, 677 Bldg, Midland, MI 48667
Get access

Abstract

A practical, low-cost research system for the fluorescent optical imaging of BCB (DVS-bisBCB) thin films has been used for the first time to evaluate coating quality on spin coated silicon wafers. In general, DVS-bisBCB thin films are easily produced defect free with a high degree of planarization. Various features of the coating are enhanced visually by the fluorescence making detection, digital storage, and quantification easier. Examples of features found in defective coatings made intentionally by a process to generate several common thin film defects are variations in film thickness, foreign particles, pinholes, and residual polymer in vias. The fluorescent bands of the normally transparent resin are easily excited in the near UV with a mercury lamp, causing a semi-opaque visible emission which could be observed by conventional imaging hardware. The BCB fluorescent quantum yield, or efficiency, is similar to fluorescent dyes so that only a small amount of BCB need be present in a substrate to allow optical inspection.

This strong fluorescent property of DVS-bisBCB polymer, not possessed by many polyimide resins, could reduce labor costs of manual inspections and improve multichip module (MCM) processing yields. This digital imaging technique has potential for further development as a cost-effective automated optical inspection (AOI) method.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 381: Symposium F – Low-Dielectric Constant Materials--Synthesis and Applications in Micro. , 1995 , 165
Copyright
Copyright © Materials Research Society 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Klrchhoff, R.A., U.S. Patent 4,540,763, (1985).Google Scholar
2. Kirchhoff, R.A., Carriere, C.J., Bruza, K.J., Rondan, N.C., and Sammler, R.L., J. Macro. Science-Chemistry, A28, Nos 11 and 12 10791113 (1991).Google Scholar
3. Hahn, S.F., Martin, S.J., McKelvy, M.L., and Patrick, D.W., Macromolecules, 26, 38703877 (1993).Google Scholar
4. Kirchhoff, R.A., Schrock, A.K., and Hahn, S.F., U.S. Patent 4,783,514, (1988).Google Scholar
5. DeVrles, R.A., Schmidt, G.F., and Frick, H.R., U.S. Patent 5,264,646, (1993).Google Scholar
6. Burdeaux, D.C., Townsend, P.H., Hahn, S.F., Thomsen, M., Gilpin, J.A., McGee, R, and Carr, J.N., Proceedings NEPCON West, Anaheim, March, 927–36 (1989).Google Scholar
7. Burdeaux, D., Townsend, P., Carr, J., J. of Electronic Materials, 19, No. 12, (1990).Google Scholar
8. Townsend, P.H., Burdeaux, D.C., Hahn, S.F., Thomsen, M., and Carr, J.N., Proceedings MRS, San Diego, 154, 4752 (1989).Google Scholar
9. DeVries, R. A., Shick, R.A., Helmer, D. C., ”Preliminary Evaluation of Fluorescence in Benzocyclobutene Monomers and Polymers”, Paper submitted.Google Scholar
10. Magill, P.A., Powell, J.J., ISHM Proceedings 92, 552 (1993).Google Scholar
11. Silberring, P., Solid State Technology, Sept (1994).Google Scholar
12. McMaboa, D.H., U.S. Patent 4,152723 (1979)Google Scholar