Photocatalytic layers of amorphous TiO2 and polyvinyl alcohol were used for the patterning of low-resistivity metals such as copper and silver without using high cost materials and equipment.
A new metal patterning process using photocatalyst was developed to reduce the number of chemical processing steps and to obtain high resolution. Films of amorphous TiO 2 and water-soluble polyvinyl alcohol were used as photocatalytic layers. UV light was illuminated through a photomask onto the photocatalytic layers. Pd(II) in an aqueous solution was reduced to Pd(0) by the exposed TiO 2 and deposited on the exposed regions. Selective electroless Ni/Cu plating on the Pd patterns showed high resolution metal patterns. Process parameters such as exposure dose and postexposure time delay were optimized to confirm the feasibility of this method. It was established that high resolution metal patterns of low resistivity with good adhesion were formed only at a small process steps without using high cost materials and equipments. Selective growth of carbon nanotubes on the Ni patterns was carried out by plasma-enhanced chemical vapor deposition. It's expected that this methods will have several benefits for fabricating the microelectronic devices, especially in the large size flat panel display.
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