1. Corrosion of Aluminum Metallization Through Flawed Polymer Passivation Layers; In-Situ Microscopy
- Author
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Alexander J. Yerman, Fritz G. Will, Kevin H. Janora, and James G. McMullen
- Subjects
chemistry.chemical_classification ,Materials science ,Passivation ,Gas evolution reaction ,chemistry.chemical_element ,Biasing ,Polymer ,Corrosion ,Anode ,chemistry ,Aluminium ,Forensic engineering ,Wafer ,Composite material - Abstract
Aluminum corrosion in a polymer-coated circuit model was studied using in-situ microscopy coupled with time-lapse video recording. Pinholes in the polymer coating and exposure to water with bias voltage of 40V applied between adjacent aluminum tracks resulted in fast anode corrosion, accompanied by gas evolution. A mathematical model is developed that is in good agreement with the observed current-time relationship. The rate of corrosion is controlled by the resistance of a 6000A thick water film occupying the space of the corroded Al film between wafer and polymer coating. A tentative corrosion mechanism is proposed.
- Published
- 1987
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