LOPE-C 2012
Conference Program day by day
Download the full conference program here
- Track 1 | Technical Conference
- Track 2 | Technical Conference
- Track 3 | Technical Conference
- Track 4 | Scientific Conference
- Track 5 | Scientific Conference
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Plenary Session Plenary Session | Room 14b09:00 am Recent Progress in Small Molecule Organic Devices Prof. Karl Leo, Institut fuer Angewandte Photophysik, Technische Universitaet Dresden, Fraunhofer-Institute for Photonic Microsystems, Germany more09:30 am Recent Development in Flexible Displays Dr. Jang-Lin Chen, Industrial Technology Research Institute (ITRI), Vice President of ITRI and General Director of DTC, Taiwan more10:00 am Towards mass production of organic vacuum-deposited solar cells and modules Dr. Martin Pfeiffer, Heliatek, CTO, Germany more10:30 am Partnering for Progress in Flexible, Printed Electronics Dr. Malcolm J. Thompson, Flextech Alliance, Member of the FlexTech Alliance Governing Board and Chairman of the Technology Committee, United States more |
11:00 am
Coffee Break
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Technical Conference Electronics / Components I | Room 13a11:30 am On a way to fully printed Integrated Smart Systems Mr Simo Siitonen, Stora Enso Oyj, Research Engineer, Finland more12:00 pm Flexible Electronics based on Organic Transistors (OTFTs) Prof. Shizuo Tokito, Research Center for Organic Electronics (ROEL), Yamagata University, Distinguished Research Professor, Japan more12:30 pm Fully gravure printed 96 bit 13.56 MHz RFID tags Dr Minhun Jung, Samsung APT, Korea, South more |
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Technical Conference Electronics / Components II | Room 13a02:00 pm Scalable logic-addressed memory: printing integration of organic complementary logic and ferroelectric memory Dr. Tse Nga (Tina) Ng, PARC Palo Alto Research Center, Member of Research Staff II, United States more02:30 pm High performance, solution-processed organic transistor circuits Prof. Dr Henning Sirringhaus, Cavendish Laboratory, University of Cambridge, Hitachi Professor of Electron Device Physics, United Kingdom more03:00 pm Thin, Flexible, Rechargeable Zinc Batteries Incorporating a High Conductivity Polymer Electrolyte Dr. Christine Ho, Imprint Energy, Co-Founder and Head of Technology, United States more |
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Technical Conference Integrated Smart Systems II | Room 13a04:00 pm Thinfilm memories and first steps towards integrated memory and system products Mr Jakob Nilsson, Thin Film Electronics ASA, Leader of Print Process and Development, Norway more04:30 pm Converging the physical and digital worlds Mr Manuel Camara, Ynvisible, New Products Manager, Portugal more |
Session Details
Plenary Session | Plenary Session (09:00 am - 11:00 am)
09:00 am
Recent Progress in Small Molecule Organic Devices
Prof. Karl Leo, Institut fuer Angewandte Photophysik, Technische Universitaet Dresden, Fraunhofer-Institute for Photonic Microsystems, Germany
- Small OLED Displays have reached multibillion market
- OLEDS Lighting is on the Verge of Commercialization
- Recent work on high efficiency OLED and flexible OLED deposition
- Recent progress in organic photovoltaics
09:30 am
Recent Development in Flexible Displays
Dr. Jang-Lin Chen, Industrial Technology Research Institute (ITRI), Vice President of ITRI and General Director of DTC, Taiwan
- Opportunities with flexible displays
- Roll-to-Roll coatable cholesteric LC displays
- flexible AMOLED on clear PI Substrate
- Conclusion
10:00 am
Towards mass production of organic vacuum-deposited solar cells and modules
Dr. Martin Pfeiffer, Heliatek, CTO, Germany
- p-i-n tandem cells with 9.8% certified efficiency on 1cm² with superior low-light and high-temperature performance
- Efficient modules on glass and PET foil
- Durability of highly efficient cells
- Towards roll-to-roll production
10:30 am
Partnering for Progress in Flexible, Printed Electronics
Dr. Malcolm J. Thompson, Flextech Alliance, Member of the FlexTech Alliance Governing Board and Chairman of the Technology Committee, United States
- Recount successful outcomes of Flextech Alliance sponsored collaborative projects in high performance organic semiconductors for printed CMOS circuits; record breaking organic photovoltaic cell efficiencies; high-speed atomic layer deposition (ALD) system for commercial roll-to-roll practices; methods for continuous printed electronic manufacturing on flexible glass substrates.
- Show collaboration between industry and academia has led to successful pilot manufacturing facilities for printed, flexible electronics .
- For nearly two decades, the FlexTech Alliance and its Technical Program has been identifying technology gaps and facilitating the collaboration required to provide solutions.
Technical Conference | Electronics / Components I (11:30 am - 01:00 pm)
11:30 am
On a way to fully printed Integrated Smart Systems
Mr Simo Siitonen, Stora Enso Oyj, Research Engineer, Finland
- Hybrid solutions on the market
- Printed electronics component development
- Printed electronics production development
- Fully printed Integrated Smart Systems
12:00 pm
Flexible Electronics based on Organic Transistors (OTFTs)
Prof. Shizuo Tokito, Research Center for Organic Electronics (ROEL), Yamagata University, Distinguished Research Professor, Japan
- Introduction of research activities at Yamagata University in the field of Organic Electronics
- Latest results relating to performance improvements of OTFTs
- Low-temperature fabrication on plastic films of solution-processed OTFTs , using polymer-based semiconducting and dielectric layers and Ag nano-particle inks
- Review of perational stability of the resultant OTFTs and their practical application to electronic circuits
12:30 pm
Fully gravure printed 96 bit 13.56 MHz RFID tags
Dr Minhun Jung, Samsung APT, Korea, South
- Strategies to overcome the limit of R2R gravure for integrating TFTs on plastic foils for generating 96 bit digital codes
- Key issues in R2R gravure printed 96 bit RFID tags for attaining 95% of production yield
- Critical factors for reading out gravure printed 96 bit RFID and NFC tags using a smart phone
Technical Conference | Electronics / Components II (02:00 pm - 03:30 pm)
02:00 pm
Scalable logic-addressed memory: printing integration of organic complementary logic and ferroelectric memory
Dr. Tse Nga (Tina) Ng, PARC Palo Alto Research Center, Member of Research Staff II, United States
- Integrated organic complementary logic and memory are demonstrated with additive inkjet printing process.
- Simulation models are developed for the organic transistors to achieve circuit designs that tolerate the variations in printed devices, as well as to determine the minimum performance requirements for reliable digital logic circuits.
- A printed decoder is fabricated and used to read and write to nonvolatile ferroelectric memory capacitors. The decoder enables scalability and provides an addressing scheme for the memory passive-matrix arrays.
02:30 pm
High performance, solution-processed organic transistor circuits
Prof. Dr Henning Sirringhaus, Cavendish Laboratory, University of Cambridge, Hitachi Professor of Electron Device Physics, United Kingdom
- Organic field-effect transistors
- Flexible displays
- Complementary circuits
- Device Physics
03:00 pm
Thin, Flexible, Rechargeable Zinc Batteries Incorporating a High Conductivity Polymer Electrolyte
Dr. Christine Ho, Imprint Energy, Co-Founder and Head of Technology, United States
- Rechargeable battery that is thin, flexible, low-cost, and safe.
- Rechargeability in this zinc battery system enabled by a novel high conductivity polymer electrolyte
- Earth-abundant, low cost materials for batteries
Technical Conference | Integrated Smart Systems II (04:00 pm - 05:00 pm)
04:00 pm
Thinfilm memories and first steps towards integrated memory and system products
Mr Jakob Nilsson, Thin Film Electronics ASA, Leader of Print Process and Development, Norway
- Learnings from R2R production of thinfilm non-volatile ferro-electric memories
- Addressable non-volatile memories
- Path to system products
04:30 pm
Converging the physical and digital worlds
Mr Manuel Camara, Ynvisible, New Products Manager, Portugal
- Using printed electronics’ technologies to bring everyday objects and surfaces to life;
- Market cases: designing and delivering interactive products for mainstream customers;
- Roadmap for integrated printed electronics’ products.
