Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-25T15:52:30.144Z Has data issue: false hasContentIssue false
  • English
  • Français

Low-Temperature Bonding of Ceramics by Sol-Gel Processing

Published online by Cambridge University Press:  15 March 2011

C.J Barbé ,
D.J. Cassidy ,
G. Triani ,
B.A. Latella ,
D.R.M. Mitchell ,
A. Day ,
K. Short ,
J.R. Bartlett ,
J.L. Woolfrey  and
G.A. Collins
C.J Barbé
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
D.J. Cassidy
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
G. Triani
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
B.A. Latella
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
D.R.M. Mitchell
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
A. Day
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
K. Short
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
J.R. Bartlett
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
J.L. Woolfrey
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
G.A. Collins
Affiliation:
ANSTO Materials Division, PMB 1 Menai NSW 2234, Australia
Get access

Abstract

Sol-gel bonding was produced between smooth, clean substrates of silicon and polycrystalline alumina by spin-coating solutions containing partially hydrolysed silicon alkoxides. The two coated-substrates were assembled and the resulting sandwich was fired at temperatures ranging from 300 to 600°C. The coatings and bonded substrates were investigated using SEM, TEM and micro-indentation. For silicon wafers, an optimum water-to-alkoxide molar ratio of 10 and hydrolysis water pH of 2 was found. Such conditions led to relatively dense films (>90%), resulting in bonds with a fracture energy of 3.5 J/m2, which is significantly higher than those obtained using hydrophilic wafer bonding (typically 1.5 J/m2).

Poly-crystalline alumina substrates were similarly bonded at 600°C; the opt imised silica sol-gel chemistry yielded interfaces with fracture energy of 4 J/m2.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 587: Symposium O – Substrate Engineering - Paving the Way to Epitaxy , 1999 , O4.6
Copyright
Copyright © Materials Research Society 2000

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 Steinkirchner, J, Martini, T., Reiche, M., Küstner, G, and Gösele, U., Advanced Materials 7, 662 (1995).Google Scholar
2 Barbé, C.J, Cassidy, D.J., Triani, G., Latella, B.A., Mitchell, D.R.M., Short, K., Bartlett, J.R., Woolfrey, J.L. and Collins, G.A., Journal of Sol-Gel Science and Technology, accepted for publication.Google Scholar
3 Kern, W. and Puotinen, D., RCA review June 1970, 187 (1970).Google Scholar
4 Brinker, C.J. and Scherer, G.W., Sol-Gel Science: the Physics and Chemistry of Sol-Gel Processing (academic Press, San Diego, 1990), p. 212.Google Scholar
5 Gosele, U. and Tong, Q.-Y., Annu. Rev. Mater. Sci., 28, 215241 (1998).Google Scholar
6 Desmond-Colinge, C. A. and Gosele, U., MRS bulletin 12, 3034 (1998).Google Scholar
7 Brinker, C.J. and Scherer, G.W., Sol-Gel Science: the Physics and Chemistry of Sol-Gel Processing (academic Press, San Diego, 1990), p. 799.Google Scholar