Challenges in the manufacture of glass substrates for electrical and optical interconnect
Abstract
Purpose
To present the aims and preliminary findings of a research project to investigate the manufacture of multilayer glass substrates built up from thin glass sheets.
Design/methodology/approach
The approaches that may be taken to create glass substrates and the challenges involved are described. Excimer laser machining was used for the formation of microvias and other features in individual glass sheets. In addition, methods for the electroless copper metallisation of the smooth glass surfaces were studied. Finally, a technique for the lamination of the glass layers using low temperature, pressure assisted bonding was investigated.
Findings
Microvias with 100 μm diameter entry holes were successfully machined in 100 μm thick glass sheets and process windows were identified to reduce debris and hole taper. Using appropriate pre‐treatment steps, electroless copper coatings could be deposited uniformly over the smooth glass surface, however, further improvements in adhesion were found to be necessary. The direct lamination of glass layers was found to be possible using pressure and temperature applied over long periods of time. Improvements to the lamination process were made to reduce the initiation of cracks which were assessed using fatigue testing.
Research limitations/implications
The feasibility of the individual steps in the fabrication of glass substrates has been demonstrated. Further work is necessary to control the processes in order to limit microcrack formation, improve copper coating adhesion and ensure uniform lamination of multiple glass layers.
Originality/value
The use of glass materials could enable the manufacture of substrates for high density electrical interconnect with integrated optical waveguides.
Keywords
Citation
Hutt, D.A., Williams, K., Conway, P.P., Khoshnaw, F.M., Cui, X. and Bhatt, D. (2007), "Challenges in the manufacture of glass substrates for electrical and optical interconnect", Circuit World, Vol. 33 No. 1, pp. 22-30. https://doi.org/10.1108/03056120710723689
Publisher
:Emerald Group Publishing Limited
Copyright © 2007, Emerald Group Publishing Limited