• Needed for displays, antenna, SHM, eGear, eTextiles, eHarvesting
• Rollability for stowage and transportation
• Technical challenges beyond the ordinary

• Toppan Forms Strategy on Printed Electronics and Smart Media
• Toppan Forms Position and Playing Role in the Printed Electronics Value Chain
• Toppan Forms Technologies and Applications

• Why paper persists despite the advent of the paperless office
• How we can make paper even more irresistible
• Merging the paper and digital realms

• RFoP - RFID on Printed Circuit Board
• Embedded RFID in mobile phone
• One-Chip-Solution for manufacturing process and quality control
   

• Markets and Applications for printed electronics
• PolyIC latest achievements: approaching 13.56MHz RFID tags
• Current status and Roadmap

• Reconfigurable Carbon Nanotube Switch
• Reconfigurable Logic
• Ideal Diode Behavior: Optoelectronics and Photovoltaics

• High performance nanocomposite dielectric
• Bottom gate organic field effect transistors (OFETs)

• Low-temperature processing of insulators and semiconductors
• Diffusion printing and patterning
• Circuit fabrication and performance
 

• Printed RFID Technology
• Current Status of RFID Technology
• Challenges to future progress

• Beyond toys
• What a difference a year can make. New applications
• Textiles and Transportation

Dow Chemical Venture Capital, USA Nicholas Darby

Venture Capital, Eastman Kodak Co Subra Narayan, Director

• Critical path in high information content flexible display technology development
• Process development on 6" wafer-scale line
• Unique toolsets and processes required to enable fabrication on flexible substrate
• Scale-up to GEN II
• Outlook for transition to printing

• Key materials activities
• Production process developments
• Novel systems integration proposals

• Global activities of ink-jet printing of electronics and displays
• Potential difficulties and reliabilities in fabrication caused by ink-jet printing and its strategies
• Design guide: The challenge from stand-along platform to roll-to-roll line

• Requirements and technologies for Thin-Film-Transistor fabrication on flexible substrates
• Choice of substrate and trade-offs
• Is there a killer app for a flexible display - what might be an entry point?

• Photonic Solutions Platform
• Production Processes
• Applications

• The benefits of developing thin film technology on a low cost substrate
• How to produce cheap circuits where multicomponents are needed and silicon is not an option
• How polymer electronics can be used to form Thin Film Power Circuits and Transistor Circuits (TFTCs)

• Introduction to NXT Distributed Mode Loudspeaker (DML) Technology
• Ultra thin form factor (DM) loudspeakers deliver interactive high information content using audio
•  Recent developments for smart packaging and other printed electronics applications
   

• Benefits of smart skin patches
• The technology
• Future of smart skin patches

• The Technology
• The Benefits
• Examples and Applications
   

• Assessment of high speed printing methods and their suitability for printing antennas
• Interactions within the love triangle - ink, substrate and print technique

• Introduction - conductive materials for Printed Electronics and their requirement
• Synthesis and characterization of nanoscale silver platelets
• Potential applications and ways nanoscale silver platelets may facilitate Printed Electronic applications

• Polyethylenedioxythiophene-polystyrenesulfonate (PEDOT/PSS, BAYTRON® P) is a versatile, solution-processable inherently conductive polymer useful for making transparent conductive and antistatic films.
• Understanding the basic structural properties of the PEDOT/PSS polymer and its chemical & physical interactions with a variety of coating additives enables end-users to prepare stable, easy-to-use coating dispersions and to optimise coating formulations for specific applications.
• Recent advances in the production of highly conductive PEDOT/PSS dispersions will be discussed and compared to other transparent conductive layers such as indium-tin-oxide (ITO). Examples of applications which use these highly conductive PEDOT/PSS materials in place of ITO will be presented.

• Commercially Available OSCs
• Performance Milestones of OSCs
• Recent OSC Advances at EMD Chemicals/Merck KGa

• Current technologies and challenges
• Emerging opportunities in printed electronics
• Unmet material needs

• Improved film physical properties shrinkage level and uniformity, flatness, and cleanliness
• Film surface type and treatment advances
• Latest examples of film in use

• Engineered silver flakes and powders
• Reactive system bases
• Inkjet materials
   

Manufacturing

• Success with ink jets in manufacturing
• Keys to success in new markets
• New technology for high resolution electronics
• Tools for intelligent ink jet printing

• The RTFS method combines pressure, voltage, and pulse heating of two independently optimized precursor films in a contained environment to reactively create coatings
• Printing of advanced functional coatings by the RTFS method provides unique flexibility for the control of material properties
• A specific example of RTFS will be described in the context of the synthesis of CIGS compound semiconductor coatings for photovoltaic applications, where HelioVolt Corporation's proprietary implementation of the process is referred to as FASSTT.
   

• Micro Contact Printing
• Thin Film Transistors
• Nanocrystalline silicon

Interested in presenting something new and exciting? Email Chris Clare