1. Enhanced adhesion and thermal stability of Al/Cr film on indium-tin-oxide (ITO)-coated glass
- Author
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Jang-Hsing Hsieh, Tzong-Ming Wu, J. Z. Tong, and Y. S. Yang
- Subjects
Materials science ,Doping ,Oxide ,Surfaces and Interfaces ,General Chemistry ,Adhesion ,digestive system ,Surfaces, Coatings and Films ,Indium tin oxide ,chemistry.chemical_compound ,chemistry ,Mechanics of Materials ,Materials Chemistry ,Thermal stability ,Metallizing ,Composite material ,Thin film ,Metallic bonding - Abstract
Metallization of indium-tin-oxide (ITO)-coated glass using an Al/Cr composite thin film is a common practice for chip-on-glass packaging. However, the reliability of the Cr/ITO interface is always a problem because of poor adhesion due to the chemical inertness of ITO. In this study, the adhesion strength between a Cr film and ITO coated glass was enhanced by forming an intermediate oxide layer at the interface. To find out the optimal interface condition, various amounts of oxygen were doped at the interface. The results show that the adhesion strength and thermal stability are both enhanced by the interfacial doping of oxygen. This enhancement is found to be related to the flow rate of oxygen and, therefore, to the oxide thickness. Maximum improvement occurs when the flow rate of oxygen is set at 6 sccm during doping, and at this rate the interface oxide thickness also reaches its maximum value. Under this condition, the Cr/ITO interface also shows the best thermal stability. Wire bond testing shows tha...
- Published
- 2003
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