Low resistance and high reliability of touch panel electrodes, fine wiring, new wiring materials, and narrow bezel design.
S30625
- Fine-tuning of pull lines in photolithography, low resistance of Cu-based wiring materials, and high reliability.
★ For the touch panel sensors, low-resistance materials other than ITO are desired, and for the wiring, low-resistance materials with fine wires that accommodate narrow bezels are desired! ★ As the integration into products progresses, what are the development trends of Cu-based touch panel wiring materials that have begun to appear? What are the technologies for reducing the resistance and corrosion prevention of Cu-based wiring? ★ What are the challenges when wiring using photolithography and other methods as a replacement for conventional screen printing?
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basic information
Part 1: Kenji Nakaya, Ph.D., Director of the Development Department, Touch Panel Research Institute, Inc. Part 2: Junichi Koike, Professor, Graduate School of Engineering, Tohoku University, Major in Intelligent Device Materials Kawasaki City International Exchange Center, 2nd Floor, Conference Room 4 [Kanagawa, Kawasaki] 10-12 minutes walk from "Motosumiyoshi Station" on the Tokyu Toyoko Line and Tokyu Meguro Line Date and Time: June 21, 2013 (Friday) 13:30-16:30
Price information
52500
Price range
P2
Delivery Time
P2
Applications/Examples of results
Part 1: Development of Touch Panels Realizing Narrow Bezel with Electrode Fine Line Formation and Cu Fine Lines [13:30-15:00] [Program] 1. Types of Touch Panels and Market Expansion 2. Structure of Capacitive Touch Panels 2-1 Trends from Cross-Sectional Structure 2-2 Window Type and In-Cell Type Touch Panels 2-3 Cost Composition of Touch Panels 2-4 Challenges in Scaling Up Touch Panels 3. Trends in Low-Resistance Materials 3-1 ITO Sensor Films 3-2 ITO Alternative Sensor Films 3-3 Structure and Features of SpiderNet Touch Panels 3-4 Sensitivity Characteristics of SpiderNet Touch Panels 3-5 New Applications of SpiderNet Touch Panels 3-6 Future Developments of SpiderNet Touch Panels 4. Methods for Creating Wiring Electrodes 4-1 Wiring Creation by Printing Method 4-2 Nano Silver Ink Materials 4-3 Wiring Creation by Sputtering Method [Q&A and Business Card Exchange] Part 2: Development of Touch Panels Using Barrier Layer Self-Forming Alloys [15:15-16:30]
Company information
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