2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
-1- -2- The International Conference on Flexible and Printed Electronics
-1- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Introduction CONFERENCE ORGANIZERS
With growing interests in large area, flexible and low cost electronics globally, Honorary Chair printing as an alternative technique for electronics manufacturing has become Prof. Tieyong Zuo(Fellow, Chinese Academy of Engineering, Beijing University of Technology, China) a focusing area in recent years. Printed electronics, together with a large family of new “breed” of electronics such as organic electronics, plastic electronics, General Chair flexible electronics, transparent electronics, paper electronics, wearable Prof. Zheng Cui (Suzhou Institute of Nanotech, Chinese Academy of Sciences, China) electronics, etc., are considered as complimentary to the dominant silicon microelectronics. Being flexible and printable enable a variety of innovative Co-Chairs products that make our life colorful, more convenient, more fun and above all, Prof. Gyoujin Cho (Sunchon National University, Korea) better quality. Dr. Toshihide Kamata (National Institute of Advanced Industrial Science and Technology, Japan) Flexible and printed electronics are still in its infancy stage. Though some flexible and printed electronics Prof. Yibing Cheng (Monash University, Australia) products start to appear in market, the technology itself is still developing. Many challenges are ahead Dr. Chun-Ting Liu (Industrial Technology Research Institute, Taiwan) in materials, fabrication processes, equipments and integrations, etc. The International Conference on Dr. Jie Zhang (Institute of Materials Research and Engineering,Singapore) Flexible and Printed Electronics (ICFPE) aims to bring together the best minds in academia and industry to discuss the challenges and exchange ideas. The conference started in 2009, with the first ICFPE held in International Advisory Committee Jeju, Korea, the second in Hsingchu, Taiwan, the third in Tokyo, Japan and the 4th in Jeju, Korea again in 2013. Prof. Takao Someya Tokyo University (Japan)
In October 21-23, 2014, the 5th ICFPE has come to Beijing, China. China views the hosting of ICFPE as a Prof. Kee-Hyun Shin Konkuk University (Korea) great opportunity to let the Chinese researchers and industrialists see the worldwide development of flexible and printed electronics, and to let the world see what China has done and what are the opportunities of Dr. Han-Ping Shieh National Chiao Tung University (Taiwan) business and technology collaborations lying ahead. I am very pleased that the response to the ICFPE Dr. Paul Heremans IMEC (Belgium) 2014 is very encouraging. We have received 240 abstracts from 20 countries. 222 abstracts have been selected to form the oral sessions and poster session. We have 5 plenary speakers of world renowned Prof. Henning Sirringhaus Cambridge University (UK) experts and 28 invited speakers with highly regarded experience in the field. There are 4 master classes to give young researchers the first hand knowledge in different aspects of flexible and printed electronics. Prof. Zhenan Bao Stanford University (USA) I am particularly proud that nearly half of submitted abstracts are from Chinese researchers, representing the growing interests and activities in the field in China. With the sheer size of population, the potential Dr. Andy Hor IMRE (Singapore) market in China for flexible and printed electronics products cannot be ignored. China as the world largest manufacturing base for everything, particularly in sectors such as flat panel displays, solar cells, printed Dr. Daoben Zhu Insitute of Chemistry, Chinese Academy of Sciences (China) circuit boards, etc., will become one of the major driving forces to push the technology from research to Prof. Jing Zou Tianjin University (China) commercialization. I am sure that the ICFPE 2014 will be one of the stepping stones towards the goal.
Enjoy your participation of ICFPE 2014 and enjoy your stay in Beijing! Prof. Yong Cao South China University of Technology (China)
Dr. Stephan Kirchmeyer Heraeus Precious Metals GmbH (Germany)
Prof. Harri Kopola VTT (Finland)
-2- -3- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ICFPE2014 Technical Program Committee Jin-Soo Noh Sunchon national university), Korea An-Jung Chung Korea Printed Electronics Association (KoPEA) ), Korea National Institute of Advanced Industrial Science and Yanlin Song Institute of Chemistry, Chinese Academy of Sciences, China Toshihide Kamata Technology, Japan Junbiao Peng South China University of Technology, China Takao Someya Tokyo University, Japan Yunqi Liu Institute of Chemistry, Chinese Academy of Sciences, China Shinichi Nishi Japan Printed Electronics Research Association (JAPERA), Japan Xue Feng Tsinghua University, China Shizuo Tokito Yamagata University, Japan Jindu Lin Chinese Printed Circuits Association (CPCA), China Kazumasa Nomoto Sony, Japan Xiachang Zhang Changzhou Institute of Printed Electronics Industry, China Aiko Sakurai Mitsubishi chemical Group, Japan Luhai Li Industrial Alliance of Printed Electronics, China Jie Zhang Institute of Materials Research and Engineering (IMRE), Singapore Li Rong Zheng Fudan University, China Peter Ho National University of Singapore Haixia Zhang Peking University, China Yibing Cheng Monash University, Australia Wei He University of Electronics Science and Technology, China Adisorn Tuantranont National Electronics and Computer Technology Center, Thailand Institute of Physics and Chemistry, Chun-yan Liu Simon Ogier Center for Process Innovation (CPI), UK Chinese Academy of Sciences, China Changchang Zhu TCL Industrial Research Institute, China Jeremy Burrroughes Cambridge Display Technology, UK Xiuqi Huang Kunshang New Flat Panel Display Technology Center, China Davor P. Sutija Thin Film Electronics, Norway Feng Pan Tsinghua University, China Wolfgang Mildner PolyIC, Germany Jiabin Xu Chinese University of Hong Kong, Hong Kong Klaus Hecker Organic Electronics Association (OE-A), Germany Feng Yan Hong Kong Polytechnic University, Hong Kong Frederik Krebs Technical University of Denmark Henry Yan Hong Kong University of Science and Technology, Hong Kong Hagen Klauk Max Plank Institute for Solid State Research, Germany Beng Ong Hong Kong Baptist University, Hong Kong Raimo Korhonen VTT, Finland Jupiter Hu Industrial Technology Research Institute (ITRI), Taiwan Luisa Torsi University of Bari, Italy Yung Hui Yeh Industrial Technology Research Institute (ITRI), Taiwan Ronn Andriessen Holst Center, Netherlands Institute of Atomic and Molecular Sciences, Muhammad Mustafa Lain-jong Li King Abdullah University of Science and Technology (KAUST),Saudi Arabia Academia Sinica, Taiwan Hussain Feng Yu Tsai Nantional Taiwan University, Taiwan Bernard Kipplelen Georgia Institute of Technology, USA Byung-Oh Choi Korea Institute of Machinery & Materials (KIMM), Korea Vivek Subramanian UC Berkeley, USA Kyung-Tae Kang Korea Institute of Industrial Technology (KITECH), Korea L Jay Guo University of Michigan, USA Beyong-Hwan Ryu Korea Research Institute of Chemical Technology (KRICT), Korea Vladimir Bulovic MIT, USA Hoo-Jeong Lee Sungkyunkwan university), Korea Dan Frisbie University of Minnesota, USA Gyou-Jin Cho Sunchon national university), Korea Sigurd Princeton University, USA Taik-Min Lee Korea Institute of Machinery & Materials (KIMM), Korea Robert Street PARC, USA Chung-Hwan Kim Chungnam national university), Korea Tao Ye National Research Council of Canada Jae-Won Chung Korea university), Korea Chen-Kun Chen Industrial Technology Research Institute, Taiwan
-4- -5- 2014 FLOOR PLAN The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch) Auditorium of Beijing University of Technology (BJUT)
3rd Floor of Grand Gongda Jianguo Hotel
SESSION DATE TIME MEETING ROOM Master Class 2014/10/20 13:30-18:00 2 Grand Ball Room 3 PlenaryTalk 08:30-10:30 1 Auditorium of BJUT 4 Grand Ball Room 1 3 Grand Ball Room 2 Invited Session 11:00-12:00 2 Grand Ball Room 3 6 Peony Room 2014/10/21-23 5 Hibiscus Room 4 Grand Ball Room 1 3 Grand Ball Room 2 Oral Session 13:30 - 18:00 2 Grand Ball Room 3 6 Peony Room 5 Hibiscus Room Poster Session 2014/10/22 16:00-18:00 7 Poster Area Exhibition 2014/9/21-23 08:30-18:00 Foyer
Beijing University of Technology (BJUT) -6- -7- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
GENERAL INFORMATION How to get to conference venue
For Foreigners and Chinese participants outside Beijing Onsite Registration and Information Hours Arrival Vehicle Start Point Vehicle Time RMB Suggest Line On the 3rd Floor of Grand Gongda Jianguo Hotel Monday, Oct 20 ...... 7:00A.M - 9:00 P.M. Show to the taxi driver: 机场高速 - 东四环 - 在四环的 13 出口 ( 工 Tuesday, Oct 21...... 6:30A.M. - 6:00 P.M. 90RMB 大桥出口 ) 转上辅路 - 向前行驶至四方桥 - Taxi 40min Wednesday, Oct 22...... 6:30A.M. - 6:00 P.M. Around 在四方桥处向西转入双龙路 - 在双龙路上向 Thursday, Oct 23...... 6:30A.M. - 6:00 P.M. 前行驶至第二个红绿灯出向右转 - 向前直行 Friday , Oct 24...... 6:30A.M. - 12:00 A.M. 150 米左右即可进入饭店西门 CAPITAL Beijing Subway Airport Express--Beijing AIRPORT Subway Line 10--Get off at JINSONG Conference Location and Transportation 23RMB BUS 80min Station--Take bus 535、29、683 and Plenary session will be held in Auditorium of BJUT, all the other sessions will be held in Grand Gongda Around get off at the south gate of BJUT or Jianguo Hotel of the key Floors and meeting rooms can be found on the page of 7 PLANE Songyudongli bus station Grand Gongda Jianguo Hotel Airport bus Line 26RMB Get off at Panjiayuan --Take a taxi--Get off Add:No.100 PINGLEYUAN, CHAOYANG District, Beijing 50min 1+Taxi Around at the south gate of BJUT TEL:86-10-59102222 Show to the taxi driver: http://www.bjut-hoteljianguo.com/ 100RMB Taxi 40min 南苑机场 - 东南四环 - 四方桥右转(至华威 Around 桥)- 双龙路 - 工业大学南门 Location NANYUAN AIRPORT Take the line NANYUAN Airport to XIDAN-- 36RMB Airport bus 60min Get off at MUXIYUAN Station--Take a taxi- Around -get off at the south gate of BJUT
Take Beijing Subway Line 2--Get off at Jianguomen Station and transfer to Line1- 17RMB Subway+taxi 40min Get off at Dabeiyao Station and transfer to Around Line10--Get off at JINSONG Station--Walk to the south gate of BJUT
Show to the taxi driver: 40RMB BEIJING Taxi 20min 东二环 - 光明桥左转 - 西大望路 - 南行至双 Around STATION 龙路 - 北京工业大学南门
Option 1:Take Bus line 29--Get off at the South gate of SONGYUDONGLI--Walk to 2RMB the south gate of BJUT Bus 40min TRAIN Around Option 2:Take Bus line 674--Get off at the South gate of SONGYUDONGLI--Walk to the south gate of BJUT
Take Subway line 4--Get off at XIDAN and 17RMB transfer to line 1--Get off at GUOMAO and Subway+taxi 40min BEIJING Around transfer to line10--Get off at JINSONG SOUTH Station--Walk to the south gate of BJUT STATION 35RMB Show to the taxi driver: Taxi 20min Around 南三环 - 华威桥右转 -- 北京工业大学南门
BEIJING 60RMB Show to the taxi driver: WEST Taxi 30min Around 南三环 - 华威桥右转 -- 北京工业大学南门 STATION
-8- -9- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
For Chinese participants in Beijing 停车信息: 进入酒店西门后,直接驶入地下车库或地面停车场(正门 10 个车位、北侧 15 个车位),在地下车库乘 观光电梯直达酒店三层宴会厅。
Parking Information After entering the west gate of the hotel, drive directly into the underground parking garage or on the ground (there are 10 parking spaces at the main entrance, 15 parking spaces at the north side), the sightseeing elevator in the underground garage can take you directly to the ballrooms on the 3rd floor.
地铁站: 一号线八王坟站下车乘 973 路、852 路,605 路到松榆东里东门站或十号线劲松站下车乘 29 路、683 路 到 " 松榆东里南门站 " 或乘 535 路到 " 松榆东里东门站 " 即可到达。
Subway Route Take Beijing Subway Line 1--Get off at Bawangfen Station--get on No.973/852/605 bus--Get off at Songyudonglidongmen Station. OR Take Beijing Subway Line 10--Get off at Jinsong Station--get on No.29/683 bus--Get off at Songyudonglinanmen Station or get off at Songyudonglidongmen Station by taking No.535 bus.
驾车路线: 四环:在东四环北向南方向的 12 或 13 出口(工大桥出口)转上辅路,向前行驶至四方桥,在四方桥处 向右转驶入双龙路,在双龙路上向前行驶至第二个红绿灯处向右转,向前直行 100 米左右即可进入工大 建国饭店西门。
Driving Route Turn on the roads at No.12/No.13 exit (Gongda Bridge exit) which locates north to south direction on the 4th Ring Road, driving forward to the Sifang Bridge, turn right into Shuanglong Road, keep turning right until moving forward to the second traffic light, go straight ahead about 100 meters to go to west gate of Grand Gongda Jianguo Hotel.
-10- -11- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Plenary speakers
Prof. John A. Rogers, University of Illinois at Kazumasa Nomoto, Senior General Manager of Urbana Champaign, USA Device Development Division in Sony, Japan “Flexible Electronics That Can Dissolve in Your Body” “Bendable, Rollable and Printed Displays”
Professor John A. Rogers obtained BA and BS degrees in chemistry and in physics from the University Kazumasa Nomoto,Senior General Manager of Device Development Division in Sony,Japan of Texas, Austin, in 1989. From MIT, he received SM degrees in physics and in chemistry in 1992 and Kazumasa Nomoto received Ph.D. degrees in physics from Keio University, Japan in 2000.In 1991, the PhD degree in physical chemistry in 1995. From 1995 to 1997, Rogers was a Junior Fellow in he joined Sony Corporation. His research activities has been concerned quantum dot, semiconductor the Harvard University Society of Fellows. During this time he also served as a founder and Director nonvolatile memory,TFTs,flexible e-Papers and OLED displays. From 1998 to 1999, he was a of Active Impulse Systems, a company that commercialized technologies developed during his PhD visiting scholar at Massachusetts Institute of Technology, Cambridge, MA. He is currently Senior work. He joined Bell Laboratories as a Member of Technical Staff in the Condensed Matter Physics General Manager of Device Development Division in Sony,Japan. Research Department in 1997, and served as Director of this department from the end of 2000 to 2002. He currently holds a Swanlund Chair, the highest chaired position at the University of Illinois at Urbana/Champaign. He has a primary appointment in the Department of Materials Science and Engineering, with joint appointments in the Departments of Chemistry, Bioengineering, Mechanical Science and Engineering, and Electrical and Computer Engineering. He served as the Director of a Nanoscale Science and Engineering Center on nanomanufacturing, funded by the National Science Foundation, from 2009-2012. He is currently Director of the Seitz Materials Research Laboratory.
Andrea C. Ferrari ,University of Cambridge “Graphene inks for transparent electronics”
Andrea Ferrari is Professor of Nanotechnology and Royal Society Wolfson Research Merit Award Holder. He is the Director of the Cambridge Graphene Centre and Head of the Nanomaterials and Spectroscopy Group at the University of Cambridge Engineering Department and Nanoscience Centre. He is Professorial Fellow of Pembroke College.Mrs Karen Smith is the PA to Prof. Ferrari and NMS Group Administrator. Please include her in cc in any enquiries.
-12- -13- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Master Class speakers
Yong Cao “Water/Alcohol Soluble Conjugated Polymers for Interface Modification in All-printable Polymer Optoelectronic Devices” Professor Jianhui Hou “Progress and challenges of molecular design for highly efficient photovoltaic polymers” Yong Cao appointed as Professor in the College of Materials Science, Institute of Polymer Optoelectronic Dr. Jianhui Hou is a professor in Institute of Chemistry, Chinese Academy of Sciences (ICCAS). In 2006, Dr. Materials and Devices at the South China Unversity of Technology, China since 1999. He obtained his Hou got his PhD degree at ICCAS; during 2006-2008, he worked at UCLA as the postdoctoral researcher; Bachelor Degree in Chemistry in former Leningrad University (Russia) and PhD degree at Tokyo University. during 2008-2010, he worked in Solarmer Energy Inc. as the Director of the research division. At the end of He was previously: Professor at Institute of Chemistry, CAS, 1986-1988; visiting scientist at Institute of 2010, he joined ICCAS and built a research team. His research focuses on organic photovoltaic materials. Polymer and Organic Solids, University of California, Santa Barbara, 1988-1990, senior scientist at Uniax Two of his major interests: (a) Design and synthesis of new conjugated polymers towards the applications Corporation(Santa Barbara), 1990-1999. His current research interest includes optoelectronic conjugated in highly efficient polymer solar cells; (b) Improving photovoltaic performance of polymer solar cells by polymers and devices. morphology control. In the past few years, he has co-authored over 100 papers on peer-reviewed journals and 15 patents. His work has been cited ~ 9,000 times, and his H-index is 39.
Sang-Yoon Lee ,Senior Vice President,Samsung Electronics “The Future Prospect and challenges of Printed Electronics” Professor Gyoujin Cho “Roll-to-roll gravure printing for printed electronics”
Dr. Gyoujin Cho is currently professor in Department of Printed Electronics Engineering at Sunchon Dr. Sangyoon Lee is currently Senior vice president and general manager of Organic Materials Lab. National University, Korea. Professor Cho received his Ph.D. in Chemistry from the University of at Samsung Electronics. He obtained his Ph.D. degree in Materials Science and Engineering from Oklahoma in 1995. Since 1996, he has been a professor in Chemical Engineering, Sunchon National Stanford University in 1998. He Joined Samsung Advanced Institute of Technology in 2002, where he University. He is the chair of Regional Innovation Center in Sunchon National University since 2005, led developments of various technologies related to next generation display including flexible full color and the chair of Research Consortium for Developing Roll to Roll Printed RFID Tags since 2007. Since E-paper, Printable display, foldable AMOLED, Ultra-definition LCD, and so on. He currently serves as 2002, he has focused his research on printed electronics and successfully demonstrated all gravure the National Project leader of ’the total solution for printed electronics’ Project (from July 2012). His printed 13.56 MHz operated 4 bit RFID tags. Recently, he is director of the research consortium for current research interests include organic electronics, flexible and stretchable electronics, and organic developing all R2R printed RFID tags. sensors.
-14- -15- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited speakers
Invited session 1
Professor Chung Hwan Kim Klaus Hecker is Managing Director of the OE-A (Organic and Printed “Development of printing machines for printed electronics” Electronics Association) at VDMA since 2005. He joined VDMA in Frankfurt, Germany, in 2003 as project manager for the planning of a OLED-pilot- Prof. Chung Hwan Kim obtained his Ph.D. degree in Mechanical Engineering of KAIST(Korea production, where he was responsible for technology evaluation, research Advanced Institute of Science and Technology) in 2003. After graduation he joined Samsung planning and public funding. Before his affi liation with VDMA, Klaus Hecker Electronics and worked as a senior researcher in Printing division in 2003-2005. Then he joined Nano- worked at the Institute of Microtechnology Mainz GmbH (IMM), responsible Mechanical Systems Research Division at Korea Institute of Machinery and Materials (KIMM), and for the flat panel display projects and the preparation and build-up of the had been working for development of printing machines for printed electronics from 2005 to 2010. German Flat Panel Displayforum (DFF). He received his doctorate degree in Since 2010, he has been working with Chungnam National University as an associate professor in solid state physics in the fi eld of electrical transport in nanostructured metallic Department of Mechanical & Metallurgical Engineering Education. Meanwhile he is working as the and superconducting systems from the University of Cologne, Germany. Convener of Working Group 4 (Printability) of international standardization for Printed Electronics, IEC TC119. His main research interests are design and control of printing machines, and measurement and improvement of printability in printing process. Title of presentation: OE-A roadmap on organic and printed electronics (OE-A, Klaus Hecker)
Dr Xiaoxi He is a technology analyst with IDTechEx. She has a background in emerging technologies including organic electronics. She obtained her Professor Xiaojun Guo PhD degree in Cavendish Laboratory, University of Cambridge. Prior to that, “Design of Thin-Film Transistor Circuits for Flexible and she worked at Ulm University, Germany, where she got her master degree. Printed Electronics Applications” With a strong technical background, she is familiar with both the preparation and characterisation of organic solar cells and has extensive experiences Dr. Guo received the BA degree in electronic engineering from Jilin University, China, in 2002, and in organic/printed electronics. Dr He has involved in a broad range of topics the Ph.D. degree in electronic engineering from University of Surrey, Guildford, UK, in 2007. His PhD at IDTechEx, leveraging her technical background, language skills and research was on system-on-panel integration with low-temperature polycrystalline thin-fi lm transistors. He continued his stay at University of Surrey for one more year as a postdoc Research Fellow, an alytical thinking. working on organic transistors and circuits. Before joining Shanghai Jiao Tong University in Aug. 2009, he had been working in Plastic Logic Ltd., Cambridge, UK, on research and development of printed Title of presentation: Printed, Organic and flexible Electronics: Technology, polymer thin-film transistor backplanes for flexible displays. His current research interests include Markets and Players thin-fi lm transistors and circuits based on soluble semiconductors, and fl exible integrated electronics for wearable and low-cost sensing. He has authored or co-authored more than 50 technical papers in international journals and conference proceedings. He is Associate Editor of IEEE/OSA Journal of Display Technology, Member of SID Active Matrix Device Committee and AdCom Member and Organic Electronics Committee Member of IEEE Electron Device Society.
-16- -17- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 2 Invited session 3
Yunqi Liu was born in Jiangsu province, China in 1949. He graduated from Yonggang Huang is the Joseph Cumming Professor of Mechanical the Department of Chemistry, Nanjing University in 1975, and received a Engineering and Civil and Environmental Engineering at Northwestern doctorate from the Tokyo Institute of Technology, Japan in 1991. Presently, University. He has established mechanics models for advanced technology, he is a Professor in the Institute of Chemistry, Chinese Academy of Sciences, and has published 1 book and more than 400 journal papers and book China. His research interests include design and synthesis of molecular chapters, including journals Science (2006, 2008, 2009, 2010, 2011, 2012, materials, including p-conjugated small molecules, polymers, and graphenes, 2013, 2014) and Nature (2008, 2013). His recent awards include the Larson fabrication of related devices, including field-effect transistors and molecular Award in 2003, Melville Medal in 2004, Richards Award in 2010, and Drucker electronics, and investigation of their electronic properties. He has published Medal in 2013, all from ASME; Young Investigator Medal from the Society over 500 peer-reviewed papers with more than 11,000 citationsand an h-index of Engineering Sciences in 2006; International Journal of Plasticity Medal in of 62. He edits one book and also is co-author of 18 book chapters and co- 2007; Guggenheim Fellowship from the John Simon Guggenheim Foundation inventor on over 60 patents. His achievements have been recognized with in 2008; and ISI Highly Cited Researcher in Engineering in 2009 and ISI several awards including the 2007 National Natural Prize. He was named as Highly Cited Researcher in Materials Science in 2014. He is the Editor- one of the “Highly Cited Researchers” by Thomson Reuters in 2014. in-Chief of Theoretical and Applied Mechanics Letters, Editor of Journal of Applied Mechanics (Transactions of the American Society of Mechanical Title of presentation: Solution-Processed High-Performance Organic Field- Engineers), and President of the Society of Engineering Sciences. Effect Transistors Title of presentation: Mechanics of Stretchable Electronics
Dr. Mingqian He is a Senior Research Associate and Research Manager of Corning Incorporated. He finished his PhD in 1995 and joined Corning in Keon Jae Lee is an associate professor in Dept. of Materials Science and 1998 after finished his postdoctoral fellowship from University of Southern Engineering at KAIST since 2009. He earned the Ph.D degree from University California. Dr. He is an expert in the design, synthesis and property –structure of Illinois at Urbana Champaign, IL, in 2006. His current research interests relationships of organic nonlinear optical materials, organic semiconducting are flexible and nano devices for bio, energy and electronic applications. He materials and conjugated organic systems. Mingqian has more than 45 US has co-authored over 40 SCI papers in journal including Science, Nature patent applications and has been granted 25 U.S. patents so far. Dr. He has Materials, Nano Letters, Advanced Materials, ACS Nano, Adv. Energy Mater., also authored more than 80 publications, presented numerous invited talks Adv. Func. Mater., Small, Appl. Phys. Lett., Nano Energy etc. Also he has and conference presentations in international and national conferences. filed ~120 patents in the field of flexible and nanoelectronics and more than 40 of these are licensed. Title of presentation: Organic Semiconductor Materials, Substrates and Patterning Title of presentation: Self-Powered Flexible Electronic Systems
-18- -19- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 4 Invited session 5
Dr. Xiuqi Huang is currently the CEO of R&D Center of Visionox Group and Professor Ravi Silva BA MA PhD FREng CEng CPhys FIEE FInstP FRSA Kunshan New Flat Panel Display Technology Center (KSFPD). He obtained is the Director of the Advanced Technology Institute (ATI) at the University his Ph.D. in Material Physics and Chemistry from Institute of Semiconductors, of Surrey and heads the Nano-Electronics Centre (NEC), which is an Chinese Academy of Sciences. After graduation, he joined Samsung group interdisciplinary research activity. The ATI has over 160 researchers working and worked as a senior engineer in Samsung Electronics and Samsung in interdisciplinary teams to address some of the grand challenges faced Mobile Display, focusing on the R&D of AMOLED technology. In 2009, he by humanity. The NEC has over 50 researchers, and is one of the leading came back to China and started his post-doctoral research at Tsinghua laboratories in carbon based electronics worldwide. His research has resulted University. Then, He joined Visionox Group and participated in setting up in over 450 presentations at international conferences, and over 420 archival KSFPD and was responsible for establishing the first G2.5 AMOLED pilot line journal papers. He is the inventor of 25 patents, including a key patent on in Mainland China and leading the R&D team of AMOLED technology. From low temperature growth of carbon nanotubes, and fabrication of large area 2010 to 2012, his team successfully developed several small/middle size full- nanotube-organic solar cells. The research conducted has already resulted color AMOLED panels and the first 12” AMOLED TV in Mainland China. In in two spin out companies backed by VC funding. He is a Fellow of the 2013, they also developed the first flexible AMOLED panel in Mainland China. Royal Academy of Engineering, UK and was elected a Fellow of the National Academy of Sciences Sri Lanka. He has over 10,000 citations and a Google Title of presentation: Latest Progress of OLED Flexible Display in Mainland h-factor>50. China (Xiuqi Huang) Title of presentation: Organic-Inorganic Hybrid Technologies for Multifunctional Platforms
Dr. Wang is the deputy general manager of Guangzhou New Vision Optoelectronic Technology Co. Ltd. (NVO), and an associate research fellow Jie Zhang received the B.S. degree in Mechanical Engineering from at South China University of Technology (SCUT). Dr. Wang and his team are Chongqing University (China), and the M.S. and Ph.D. degrees in Mechanical working on active matrix organic light emitting diode (AMOLED) technologies, Engineering from the University of Illinois at Chicago (USA). She is a Senior including new metal oxide semiconductor materials, high-performance oxide Scientist at the Institute of Materials Research and Engineering at A*STAR in thin-film transistor device and process, OLED materials and devices, and so Singapore. She is managing SERC’s Printed Electronics program to develop on. Dr. Wang and his team have successfully developed the first full color advanced material system, device fabrication and characterization, and AMOLED demo (2011) and the first full-color flexible AMOLED demo (2013) prototype capabilities. Previously at Motorola, she was Principal Staff Engineer in China. and managed core technology group for the large area flexible electronics technology and commercialization. She led the team fabricated the first all Title of presentation: Oxide Thin Film Transistors for Flexible Displays printed logical circuits in 2004 and the first all-printed active matrix flexible display module using conventional graphic arts printing technologies in 2008. She also has extended experience in advanced microelectronics package process and reliability evaluation for wireless communication devices. Dr. Zhang has received 18 US patents.
Title of presentation: Nanotechnology for printed electronics
-20- -21- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 6 Invited session 7
Dr. Raimo Korhonen received the M.Sc. degree in electronics in 1982 from Simon Ogier has worked in the development of organic semiconductors for Oulu University and Doctor’s degree from Technical University of Tampere in over 12 years. In his current role at the CPI he has been instrumental in the 1992. From 1983 to 1999 he worked in Valmet Automation in development establishment the UK’s National Printable Electronics Centre. Simon was and management of development for distributed automation systems and involved the specification and procurement of equipment sets for large scale paper quality measurements. From 2000 to 2004 he was leading Printed TFT and OLED/OPV fabrication. In addition he has been leading a team of Electronics Project in Metso Corporation covering areas of embossed 10 scientists developing proprietary high performance organic semiconductor diffractive optics, printed electrical structures and printed sensors. From 2004 formulations suitable for flexible OLED display backplanes. to 2007 he was Chief Technology Officer of Avantone Oy. He was leading Avantone developments that covered embossed diffractive optics and printed Title of presentation: Highly Flexible Organic Transistors for Display and Logic electrical codes. From 2007 to 2008 he was Chief Technology Officer of Applications Nicanti Oy leading Nicanti developments that covered printed electrical codes, their printing and electrical reading devices. Since 2008 he has been working in VTT in printed intelligence research, lately as head of research area for printed and hybrid functionalities. His research interests cover widely printed Dr. Jiyoul Lee is currently an assistant professor in the Department of and hybrid technologies and commercialization of technologies. Graphic Arts Information Engineering, Pukyong National University, Busan, S. Korea. He received bachelor’s degree in Metallurgical Engineering and Title of presentation: Applications of printed and hybrid technologies at VTT Ph. D. degree in Applied Physics from Yonsei University (Seoul), in 2001 and in 2006, respectively. From 2006 to 2008, he was a Postdoctoral Research Associate in the Department of Chemical Engineering and Materials Science, Dr. Toshihide Kamata received a PhD from Kyoto University in 1991. He University of Minnesota, Minneapolis, MN. Then, in 2008, he joined Samsung joined National Institute of Advanced Institute of Technology (SAIT) as a Research Staff Member to work Advanced Industrial Science and Technology (AIST) in 1992. He had been on flexible display backplane driven by printed organic semiconductor based a researcher at Max-Planck Institute for Solid State Research from 1995 to thin-film transistors. From 2013 to 2014, he had been a Senior Researcher 1996. He is currently a Director of Flexible Electronics Research Center of in Holst Centre / TNO, Eindhoven, the Netherlands, where he was mainly AIST, and Professor of University of Tsukuba. He is also a Director of the involved in the project for organic and oxide transistors on flexible plastic R&D division of JAPERA. His research interest is in the printed electronics, foil. His research interests include thin-film technology and devices based flexible electronics and display technology. He is managing research projects on nanomaterials as well as organic and metal-oxide materials for various concerning the development of flexible-printed devices for displays, tags and applications in large-area and flexible electronics, including circuit, displays, sensors. He is also engaged in the works for international standardization of and sensors, etc. He has authored or co-authored more than 40 peer printed electronics and display devices. reviewed publications and 20 patents.
Title of presentation: High performance printing techniques for flexible device Title of presentation: Doubling data storage density of solution processed fabrication organic ferroelectric memory diode arrays
-22- -23- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 8 Invited session 9
Dr. Yen Wei is Chair Professor of Chemistry and Director of the Tsinghua Dr. Muhammad Mustafa Hussain ( PHD, University of Texas at Austin, Dec Center for Frontier Polymer Research at Tsinghua University in China. 2005) is an Associate Professor of Electrical Engineering in KAUST. Before He received his undergraduate diploma (1979) and MS (1981) at Peking joining KAUST in Aug 2009, he was Program Manager of Novel Emerging University, and PhD at City University of New York (1986). After postdoctoral Technology Program at SEMATECH, Austin, Texas. His program was funded work at MIT, he joined Drexel University in 1987 as Assistant Professor, where by DARPA NEMS , CERA and STEEP programs. A regular panelist of US he became DuPont Associate Professor in 1991, Full Professor in 1995 and NSF grants reviewing committees, Dr. Hussain is the Editor-in-chief of Applied Herman B. Wagner Professor of Chemistry in 2004. He has co-authored 631 Nanoscience (Springer) and an IEEE Senior Member since February 2010. articles (over 16000 citations; H-index: 61). He joined Tsinghua University He has 15 issued an pending US patent applications. His students have in November 2009 as “Thousand-Talents Program” Chair Professor. His won numerous research awards including DOW Chemical SISCA Award current research focuses on polymers and nano-materials for bioscience, 2012, World Intellectual Property Indicator 2012. Dr. Hussain is an IEEE biomedicine,energy and printing technology. Electron Devices Society Distinguished Lecturer and a Fello2 of Institute of Nanotechnology ,UK. Title of presentation: Printable Electroactive Oligomers for Opto-Electro- Biomedical Applications Title of presentation: From Traditional Nano-scale CMOS To Transformational Flexible Nanoelectronics and Systems
Prof. Yanlin Song received his Ph.D. degree from the Department of Prof. Tian-Ling Ren is a full professor with the Institute of Microelectronics, Chemistry at Peking University in 1996. Then he conducted research as a Tsinghua University, since 2003. He has been a visiting professor at postdoctoral follow in the Department of Chemistry of Tsinghua University Electrical Engineering Department, Stanford University, from 2011 to 2012. from 1996 to 1998.Nowhe is the director of Key Lab of Green Printing, His researches mainly focus on novel micro/nano-electronic devices and Chinese Academy of Sciences. He has published more than 230 academic key technologies, including nonvolatile memories, RF devices, MEMS, and papers, 6 books and chapters, and has been granted more than 50 patents. flexible electronics. His main contributions are that he has developed the He won the First Prize of Beijing Science and Technology Award in 2004, new integration methods for novel material-based micro/nano device and the Second Prize of National Natural Science Award in 2005 and 2008, the circuit applications. He has published over 300 journal and conference papers National Science Fund for Distinguished Young Scholars, the Prestigious and holds over 40 patents. He has been an elected Member at Large, and Chinese Chemical Society-Akzo Nobel Chemistry Award, etc.. Distinguished Lecturer of IEEE Electron Devices Society. He is also a Council Member of Chinese Society of Micro/Nano Technology. For these years, he Title of presentation: Fabrication and Applications of Nanoparticles for Printed has been the technical committee member for several leading international Electronics and Photonics conferences, including International Electron Device Meeting, and Device Research Meeting.
Title of presentation: Wafer-scale Flexible Laser Scribed Graphene-based Devices (Tianling Ren)
-24- -25- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 10 Invited session 11
Dr. Junyou Pan graduated from Zhejiang University in Material Science, Dr. Shinichi Nishi obtained his doctor degree in applied chemistry at Tohoku and got Ph.D in Physics at the University of Bayreuth Germany in 2000. He University in Sendai Japan in 1980. He entered Konica and worked in the worked for EPCOS (Siemen AG) as product manager in Surface Acoustic field of LCD and developed the jisso technologies of electric devices, and Wave Component Division for 3 years. Then he joined Merck KGaA as inkjet head. In 2011 he joined JAPERA and has been developing production the head of laboratory, responsible for new OLED materials for more than technologies of printed electronics in organic TFT array film. He is a Fellow 10 years. Now he is the duty chief engineer in TCL Corporate Research, of Imaging Society of Japan. responsible for development on printed OLED materials and process. So far he has published more than 10 papers in peer-reviewed journals, and applied Title of presentation: Automated Continuously-Manufacturing Line for All- patents more than 70 families. Printed TFT-Array Flexible Film
Title of presentation: Printed OLED Materials: Issues to be solved Tai-Min Lee had his PhD in mechanical engineering at Korea Advanced Institute of Science and Technology (KAIST) in 2002, a Post Doc. Associate Hideyuki Murata received his Ph.D. in materials science at Kyushu University, at the Micro & Nano System Laboratory, Massachusetts Institute of Japan in 1992. He joined Mitsui Petrochemical Industries in Technology (MIT), Boston, U.S.A. between 2002 and 2003, then joined Korea 1992 and moved to Naval Research Laboratory, USA in 1996. He was Institute of Machinery and Materials (KIMM). He is now the head of Dept. of appointed as senior lecturer in the Department of Chemistry, Imperial College Printed Electronics at KIMM. His research interests lie in the fields of printing London, UK in 2001. He returned to Japan as an associate professor at process and equipment development for printed electronic devices, sensors, Japan Advanced Institute of Science and Technology in 2002 and was and actuators such as LCD parts, flexible display, battery, solar cell, and bio- promoted to professor in 2009. Murata’s research focuses on the molecular sensor. Since 2013 he is the Convener of IEC-TC119 (Printed Electronics) electronic materials and their application to electronic devices, including working group 3 (Equipment) OLEDs, organic PV, organic FET and organic memories. (NONE) Title of presentation: Offset Printing Process and Equipment for 1um Pattern Title of presentation: Degradation Analysis of Organic Light Emitting Diodes Width Printing Based on Thermally Activated Delayed Fluorescence
-26- -27- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 12 Invited session 13
Shizuo Tokito was born in Miyazaki, Kyushu, Japan in 1958. He received Dr. Kyung-Tae Kang is the Director of Center for Advanced Printed Electronics, a Master’s and Ph. D. degrees in engineering from the Graduate School of Korea Institute of Industrial Technology (Chonan & Ansan, Korea), involved in Engineering and Materials Science at Kyushu University, Japan, in 1985 and environment-friendly electronic component manufacturing system development 1987 , respectively . In 1987, he became an Assistant Professor at Kyushu using printed electronics technologies such as inkjet, screen printing, laser University. From 1990 to 2001, he was a Senior Research Engineer of Toyota processing for printed flexible circuit board(FPCB), organic light emitting Central Research and Development Laboratories Inc. In 2001 , he joined the diode(OLED), organic solar cell. He is the Secretary of TC-110 of International Science & Technology Research Laboratory at NHK( Japan Broadcasting Electrotechnical Commission (IEC), involved in standardization of printed Corporation) as a Senior Research Scientist and later became a Director of electronics Display & Functional Devices. He is currently a Distinguished Professor and Deputy Director at the Research Center for Organic Electronics (ROEL) , Title of presentation: A study on solution processed OLED lighting device by Yamagata University, since 2010. His research interests are in printed and non-contact printing techniques (KANG, Kyung-Tae) organic electronics , including materials , electronic devices and fabrication process technologies. He has published more than 200 scientific papers and articles in the field of organic and printed electronics. Dr. Hu received PhD from National Chiao-Tung University, Taiwan in 1997. He has been worked atITRI for 17 years. As the director of flexible electronics Title of presentation: Fully printed OTFT devices and integrated circuits on division of electronics and optoelectronics research laboratories, he led the plastic film substrates flexible electronics project.Under the project, .”paper thin speaker” and “large area pressure sensor” won 2009 and 2010 technology innovation award of Wall-street journal, respectively. For recent three years, touch panel by R2R Jun-ichi Hanna is a professor in Imaging Science and Engineering technology and OLED lighting are the new focuses. In mean time, flexible Laboratory of Tokyo institute of Technology. He obtained BS and MS electronics pilot laboratories are remodeled as the platform for the industrial degrees from department of chemistry from Tokyo Institute of Technology participation and incubating the prototype for commercialization. in 1974 and 1976, respectively. He shifted his research field to materials science for imaging in 1977. Since then, he has studied semiconductor Title of presentation: Flexible electronics development in ITRI thin films for large-area electronic devices including amorphous and low- temperature polycrystalline thin films on glass substrates and liquid crystals as a self-organizing molecular semiconductors. He is one of the pioneers for application of liquid crystals as an organic semiconductor.
Title of presentation: Liquid crystals for organic field effect transistors -How we can utilize the liquid crystallinity in device fabrication and device performance?
-28- -29- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Invited session 14 Instruction for Oral Presentation ·General Oral presentations are limited to 20 minutes, including 5 minutes for questions and answers. ·Standard audiovisual equipments will be provided in each session room, including Laptop computer, Shlomo Magdassi is a professor of applied chemistry, at the Institute of LCD projector, screen and microphone. All oral presentations should be performed using the session Chemistry and the Center for Nanoscience and Nanotechnology at the Hebrew room’s computer. You will need to transfer your presentation documents to the session room’s University of Jerusalem, Israel. His research focuses on colloid science, and computer prior to the start of your session. in particular on formation and applications of novel micro and nanomaterials. Among these subjects, he studies multi-component formulations which can Instruction for Poster Presentation be used as delivery systems and as functional printing and coatings. These ·The poster session will take place on Tuesday 22 October from 16:00-18:00PM. This includes the time materials are applied in printed electronics, for example in electroluminescent to meet conference participants and answer questions. It will be the ONLY time that your poster will be devices , solar cells and thermosolar power plants. He is the author of over on displayand that other conference members will be able to see it. It will be an interactive session, so a hundred and seventy publications, and the editor of three books: The come ready to talk to your “viewer”, and to answer questions! Chemistry of Inkjet Inks, Surface Activity of Proteins, and Novel Cosmetic Delivery Systems. He also has more than 60 inventions, which are related ·Posters will be grouped in topic areas and paper numbers (e.g. P-301) will be placed on poster to applications of dispersed systems in various industries. In addition to boards; Please find your paper number and put up your poster in the designated spaces on the 3rd basic scientific research he conducts industrial R&D projects with various floor of Grand Gongda Jianguo Hotel. companies, such as in solar energy, cosmetics, pharmaceutics and digital printing, and is involved in establishing several start-up companies. Several ·Poster stands and Blue tacks for mounting will be provided during the conference Poster Session. The products based on his inventions are sold worldwide, for example ceramic inks displayable area is 4 feet wide and 4 feet high (in meters). We suggest a poster size of 3 feet wide x 4 for digital printing. feet tall (in meters), portrait style. Posters may be assembled from individual pages or a large poster sheet. Title of presentation: Nanomaterials for printed electronics: from basic science to applications ·Do not mount your poster on foam core/board. Each poster presentation must have at least one author present at the conference poster session. AV equipment is not permitted in the poster session area. You will be sharing a poster stand with a neighboring author, so please do not go over the size Xiachang Zhang got his Doctor degree of Technology in 1995 from Helsinki limit. You will have an assigned poster stand on which to display your work. University of Technology. He has experiences in the bioprocess, biological fuel ·Remove your poster from the poster stand after the poster session -- Posters left on the stands will be cell, and low power source development for 20 years. He together with others discarded. We do not collect posters before or after the conference. established Enfucell Ltd. 2002 to develop the thin flexible power source for low current electronic device. He is the inventor of SoftBattery, which made Enfucell as Technology Pioneer 2007 by World Economic Forum. He got an award as one of the 10 most influential international Chinese 2006 organized by PhoenixTV and other 9 big Chinese media in the world. He managed two EU projects and many Finnish projects during the past ten years. He established Kunshan Printed Electronics Ltd in China 2011 and is working with many national projects now and He is an honorary professor in many Chinese Universities. He was nominated as one of thousand-talent experts by Chinese government in 2013. Title of presentation: Paper Battery and its Application in Sensor RFID Tag
-30- -31- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
PROGRAM SCHEDULE
ICFPE2014 program schedule (Overview) Master Class 1, 2 13:30 – 15:30 Master Class,Grand ball room 3 Coffee break Registration Oct. 20 15:30 – 16:00 Foyer 3rd floor of Grand Gongda Jianguo Hotel Master Class 3, 4 16:00 – 18:00 Master Class,Grand ball room 3 Plenary talk 1, 2 8:30 – 10:30 Auditorium of BJUT Coffee break 10:30 – 11:00 Foyer Invited session 1 Invited session 2 Invited session 3 Invited session 4 Invited session 5 11:00 – 12:00 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room 12:00 – 13:30 Lunch break Oct. 21 Oral session 1 Oral session 2 Oral session 3 Oral session 4 Oral session 5 13:30 – 15:30 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room Exhibition 15:30 – 16:00 Coffee break Foyer Oral session 6 Oral session7 Oral session 8 Oral session 9 Oral session 10 16:00 – 18:00 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room Conference reception 19:00 – 21:00 SHIMANTOGAWA Plenary talk 3, 4 8:30 – 10:30 Auditorium of BJUT Coffee break 10:30 – 11:00 Foyer Invited session 6 Invited session 7 Invited session 8 Invited session 9 Invited session 10 11:00 – 12:00 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room 12:00 – 13:30 Lunch break Oct. 22 Oral session 11 Oral session12 Oral session 13 Oral session 14 Oral session 15 13:30 – 15:30 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room Coffee break Exhibition 15:30 – 16:00 Foyer Foyer Poster session 16:00 – 18:00 Foyer Conference banquet 19:00 – 21:00 Grand Ball Room Plenary talk 5 9:00 – 10:00 Auditorium of BJUT Coffee break 10:00 – 10:30 Foyer Exhibition Invited session 11 Invited session 12 Invited session 13 Invited session 14 10:30 – 11:30 Foyer Oct. 23 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room 11:30 – 13:00 Lunch break Oral session 16 Oral session 17 Oral session 18 Oral session 19 13:00 – 15:00 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room End of conference * Auditorium of BJUT: Plenary talk * Beijing Grand Gongda Jianguo Hotel: Invited session/Oral session/Poster session/Exhibition/Conference reception/Banquet
-32- -33- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ICFPE2014 program schedule (Detail) Oct 20 , Mondey ,Day 1(1/4) "Progress and challenges of molecular design for highly efficient 13:30 –14:30 photovoltaic polymers" Dr. Jianhui Hou (Master Class,Grand ball room 3) "Roll-to-roll gravure printing for printed electronics" 14:30 – 15:30 Professor Gyoujin Cho(Master Class,Grand ball room 3) Oct. 20 Registration(3rd floor of Grand Gongda Jianguo Hotel) 15:30 – 16:00 Coffee break(Foyer) "Development of printing machines for printed electronics" 16:00 – 17:00 Prof. Chung Hwan Kim Class,Grand ball room 3) "Design of Thin-Film Transistor Circuits for Flexible and Printed Electronics 17:00 – 18:00 Applications"Professor Xiaojun Guo(Master Class,Grand ball room 3)
Oct 21 , Tuesday ,Day 2(2/4) 8:15 – 8:30 Conference opening (Auditorium of BJUT) "Flexible Electronics That Can Dissolve in Your Body" 8:30 – 9:30 Professor John A. Rogers(Plenary talk 1 Auditorium of BJUT) Chair: Zheng Cui “Bendable, Rollable and Printed Displays” 9:30 – 10:30 Dr. Kazumasa Nomoto (Plenary talk 2 Auditorium of BJUT ) Chair: Zheng Cui 10:30 – 11:00 Coffee break(Foyer) Invited session 1 Invited session 2 Invited session 3 Invited session 4 Invited session 5 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room (Chair: Raimo Korhonen) (Chair: Simon Ogier) (Chair: Takao Someya) (Chair: Kyung-Tae KANG) (Chair: Xiaojun Guo) Oct. 21 OE-A roadmap on organic Latest Progress of OLED Solution-Processed High-Performance Mechanics of Stretchable Organic-Inorganic Hybrid Technologies for 11:00 – 11:30 and printed electronics (OE- Flexible Display in Mainland Organic Field-Effect Transistors (Yunqi Liu) Electronics (Yonggang Huang) Multifunctional Platforms (Ravi Silva) A, Klaus Hecker) China (Xiuqi Huang) Printed, Organic and flexible Self-Powered Flexible Electronics: Technology, Organic Semiconductor Materials, Oxide Thin Flim Transistors for Nanotechnology for printed electronics (Jie 11:30 – 12:00 Electronic Systems (Keon Jae Markets and Players Substrates and Patterning (Mingqian He) Flexible Displays (Lei Wang) Zhang) Lee) (IDTechEx, Xiaoxi He) 12:00 – 13:30 Lunch break Photovoltaic (1) Organic TFT (1) Printing process (1) Flexible sensor (1) OE-A special session Exhibition Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room (Foyer) (Chair: Changqi Ma) (Chair: T. Kamata) (Chair: Chung Hwan Kim) (Chair: Keon Jae Lee) (Chair: Klaus Hecker)
-34- -35- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 21 , Tuesday ,Day 2(2/4)
[O-291] [O-433] [O-283] [O-311] Carbon Nanotube/Graphene [O-254] Precision Measurement of Patterning and Thin Film layer Efficient polymer solar cell based Flexible Sensors & Amorphous polymer source-gated Pattern Registration Accuracy application methods for Printed using in situ fabricated CuS Actuators 13:30 – 13:50 transistors through digital lithography in Printed Electronics Electronics as anode modification layer Prof.Wei Chen(Suzhou Institute Dr.Radu A. Sporea (University of Dr.Byung Oh Choi(Advanced Mr.Thomas Kolbusch(Coatema Dr.Hongwei Lei(Wuhan of Nano-Tech and Nano- Surrey,United Kingdom) Manufacturing System Division, Coating Machinery University,China) Bionics, Chinese Academy of Korea) GmbH,German) Sciences,China)
[O-356] [O-199] [O-333] Halogen-Free Solvent Thickness uniformity [O-318] Electric-field Assisted [O-511] Processing for Sustainable improvement of inkjet printed Highly Stable Organic Thin-Film Transistor Hydrothermal Growth of ZnO Digital Fabrication - smart Development of High PEDOT and organic light- Backplane Fabricated On Gorilla Glass Nanorods on Flexible Polyimide systems manufacturing based 13:50-14:10 Performance Polymer Solar emitting films Substrates Substrate and Their Strain on printing Cells Prof.Yanchun Han(Changchun Dr.YingtaoXie(Shanghai Jiao Tong Sensing Applications Prof. Reinhard R. Prof. Hin-Lap Yip(South Institute of Applied Chemistry, University, China) Prof. Rong Zhu(Tsinghua Baumann(Germany) China University of Chinese Academy of University, China) Technology,China) Sciences,China) Oct. 21 [O-343] [O-284] Viscoelastic finite element Exhibition [O-354] [O-426] [O-512] Interface Materials and analysis of roll transfer of (Foyer) Static and Dynamic Properties of Fabrication of Transparent Printed functional anodes for Solution Stability for heterogeneous devices onto C10DNTT-based Unipolar Logic with Photodetectors with Direct OLED Lighting and OPV to 14:10-14:30 Solution-Processed Organic flexible substrate by using Coplanar Device Structure Printing Method reduce cost and manufacturing Photovoltaics cohesive elements with multi- Dr.Tung-Huei Ke(Interuniversity Mr.Shih-Pin Chen(National complexity Prof. Junliang Yang (Central element interaction Microelectronics Centre,Belgium) Taiwan University, Taiwan) Prof. Armin Sautter(Germany) South University, China) Mr.Si-Young Park(University of Ulsan, Korea)
[O-313] [O-513] Printed transparent top [O-255] [O-430] [O-218] Transferring Photonic electrodes for organic solar Solution-Based Organic/Metal-Oxide Flexible Multi-color Flexible Pressure Sensor Based Curing Processing from cells Complementary Logic with Megahertz Electrochromic Device via Inkjet 14:30-14:50 on Silver Nanowire Networks R&D to Production: Dr. Jian Lin(Suzhou Institute Operation Printing Process Mr.Jun Wang(Osaka University, Equipment, Processing, and of Nanotech and nano- Mr.Vincenzo Pecunia(University of Mr.Bo-Han Chen(National Japan) Characterization bionics, Chinese Academy of Cambridge,United Kingdom) Taiwan University,Taiwan) Dr. Vahid Akhavan (USA) Sciences,China)
-36- -37- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 21 , Tuesday ,Day 2(2/4)
[O-495] [O-504] [O-309] [O-514] [O-527] Naphthalene Diimides-Based n-Type Novel Fabrication Method Kilometer long piezoelectric Innovations on Nanomaterials World Standardization Effort Organic Semiconductors towards Printed of Roll Based Transparent PVDF nanoribbon arrays for & Processes for the low-cost in Printed Electronics Electronics: Molecular Design and 14:50-15:10 Imprinting Mold For Flexible flexible energy harvesting and fabrication of flexible organic Marc Carter and Jie Zhang( Synthesis Display sensing applications photovoltaic cells IPC, Bannockburn, Illinois Prof. Xike Gao( Shanghai Institute of Mr. Yun-Ho, KOOK(LG Display Mr.Mehmet Kanik(Bilkent Prof. Stergios USA) Organic Chemistry, Chinese Academy of Co., Ltd., Korea) University, Turkey) Logothetidis(Greece) Sciences,China)
[O-475] [O-214] Towards Zero Defects- Novel Fluorinated Electroactive In-line Cleaning of Process 15:10-15:30 Polymers for Printed Electronic Rollers Dr.Fabrice Domingues dos Ms. Sheila Hamilton(Teknek Santos(Piezotech,France) Limited ,United Kingdom)
15:30 – 16:00 Coffee break(Foyer)
Photovoltaic (2) Organic TFT (2) Printing process (2) Flexible sensor (2) OLED (1) Exhibition Oct. 21 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room (Foyer) (Chair: Jianhui Hou) (Chair: Yunqi Liu) (Chair: Kee-Hyun Shin) (Chair: Wei Chen) (Chair: Junyou Pan)
[O-282] [O-373] [O-401] Fabrication of flexible OLED [O-277] [O-355] Electrohydrodynamic Direct- Intrinsically Stretchable display using printed reflection CIGS Solar Cell based on all Analysis of calendering effect on the Write Micro/Nano Pattern with Semiconducting Polymers for electrode placed on the reverse 16:00 – 16:20 Printed Layers performance of printed OTFT the Restriction of Inducing Tip Organic Electronics side of OTFT array Dr.Manjeet Singh(Osaka Mr.Sang Hoon Lee(Konkuk University, Dr. Gaofeng Zheng(Xiamen Prof. Longzhen Qiu(Hefei Dr. Takahisa Shimizu(NHK University, Japan) Seoul, Korea) University,China) University of Technology,China) Science & Technology Research Laboratories, Japan)
[O-369] [O-494] [O-348] Ultrafast Fabrications of [O-209] An ultrathin and stretchable Novel thieno[32-c]pyridine Flexible Dye-Sensitized Solar [O-197] Multifunctional inorganic biosensor for based Ir complexes for solution/ Cells by Ultrasonic Spray Circuit Simulation for Printable TFTs electrohydrodynamic printing 16:20-16:40 movement and vital signs evaporation OLED Coating Technology Dr. Ari Alastalo(VTT Technical Research Prof. YongAn Huang(Huazhong monitoring Dr.Teng-Chih Chao(Industrial Prof. Tae-Hyuk Kwon(Ulsan Centre of Finland,Finland) University of Science and Mr.Yihao Chen(Tsinghua Technology Research Institute, National Institute of Science Technology,China) University, China) Taiwan) and Technology, Korea)
-38- -39- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 21 , Tuesday ,Day 2(2/4) [O-329] [O-365] [O-498] High Efficiency Ionic Iridium(III) [O-213] Controlling the surface wettability of gate [O-280] Controllable Wrinkle complexes for Gravure Printed The morphology control of dielectric to improve resolution of inkjet- Anisotropic and Isotropic Strain Configurations by Soft Micro- Light-emitting Electrochemical 16:40-17:00 efficient perovskite solar cells printed electrodes and pattern channel Photolithography Patterns to Enhance the Cells Prof. Lixin Xiao(Peking regions Dr.Cheng-Yao Lo(Tsing Hua Stretchability of Si Ribbons Dr.Jinyong Zhuang(Suzhou University, China) Mr. Wei Tang(Shanghai Jiao Tong University,China) Dr. Yin Huang(Tsinghua Institute of Nano-Technology University,China) University,China) and Nano-Bionics, Chinese Academy of Sciences, China) [O-503] [O-337] Non-Planar Conjugated Small Sustainable Treatment [O-501] [O-493] Molecules for Use in Printable [O-251] Method on PDMS Surface Ultra-flexible Synthesis and Application of Organic Photovoltaics as Investigation on electrical stress over metal- for Printed Electronics: PiezoelectricDevices Integrated Organic Materials Based on Electron Acceptor insulator-metal (MIM) structures based on Modeling Experiment and 17:00-17:20 With Heart to Harvest the Excited-state Intramolecular Prof.Chang-Qi Ma(Suzhou compound dielectrics for the inkjet-printed Characterization Biomechanical Energy Proton Transfer (ESIPT) Institute of Nano-Tech and Mr.Kalyan Yoti Mitra(Technische Prof. Yu Liu(Chengdu Ms. Ying Chen(Tsinghua Prof.Sanghyuk Park(Kongju Nano-Bionics (SINANO), Universitaet Chemnitz, Germany) Green Energy and Green Oct. 21 University, China) National University,Korea) Chinese Academy of Manufacturing Technology R*D Sciences,China ) Center, China) [O-266] [O-345] Capacitive Pressure Sensor [O-440] N-Channel and P-Channel Step-Edge Using Printed Stretchable The Production process for the Vertical-Channel Transistors Fabricated by Conductor with Microstructural 17:20-17:40 Printed Electronics Printing Process Patterns Mr.Shoujun Li (Kunshan Printed Prof. Kazuhiro Kudo(Chiba Ms.Yuqun Hou(Beijing Electronics Ltd.,China) University,Japan) Institute of Graphic Communication,China) [O-219] State-of-the-art inkjet printing Value Enhancement of technology for printed Critical Substrates for Flexible 17:40-18:00 electroncs Electronics Dr. Jiepeng Liu(Nikyang Ms. Rebecca Wang (Pillar Enterprise Limited,China) Technologies., United Kingdom) 19:00 – 21:00 Conference reception(SHIMANTONGAWA)
-40- -41- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 22 , Wednesday ,Day 3(3/4) "Graphene Inks for Transparent Electronics" 8:30 – 9:30 Professor Andrea C. Ferrari(Plenary talk 3 Auditorium of BJUT ) Chair: Zheng Cui
"Water/Alcohol Soluble Conjugated Polymers for Interface Modification in All-printable Polymer Optoelectronic Devices" 9:30 – 10:30 Professor Yong Cao(Plenary talk 4 Auditorium of BJUT) Chair: Zheng Cui
10:30 – 11:00 Coffee break(Foyer)
Invited session 6 Invited session 7 Invited session 8 Invited session 9 Invited session 10 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room (Chair:Gyoujin Cho) (Chair: Jupiter Hu) (Chair: Shlomo Magdassi) (Chair: Ravi Silva) (Chair: Xiuqi Huang)
From Traditional Nano-scale Printable Electroactive Applications of printed and CMOS To Transformational Highly Flexible Organic Transistors for Display Oligomers for Opto-Electro- Printed OLED Materials: Issues to be 11:00 – 11:30 hybrid technologies at VTT Flexible Nanoelectronics and and Logic Applications (Simon Ogier) Biomedical Applications (Yan solved (Junyou Pan) (Raimo Korhonen) Systems (Muhammad Mustafa Wei) Hussain)
Oct. 22 Fabrication and Applications Degradation Analysis of Organic Light High performance printing Doubling data storage density of solution Wafer-scale Flexible Laser of Nanoparticles for Printed Emitting Diodes Based on Thermally 11:30 – 12:00 techniques for flexible device processed organic ferroelectric memory diode Scribed Graphene-based Electronics and Photonics Activated Delayed Fluorescence (Hideyuki fabrication (T. Kamata) arrays (Jiyoul Lee) Devices (Tianling Ren) (Yanlin Song) Murata)
12:00 – 13:30 Lunch break
Sintering and drying process OLED (2) Conductive films Inorganic TFT Paper electronics Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room Hibiscus Room (Chair: Vahid Akhavan) (Chair: Hideyuki Murata) (Chair: Jie Zhang) (Chair: Xiaojun Guo) (Chair: Xiachang Zhang)
[O-286] Fabrication and performance [O-299] [O-249] [O-394] of flexible printed TFTs and Electrical force assisted [O-436] Exhibition Photonic Curing for Roll-to- Research on the diffusion barrier performance logic circuits based on polymer- structuring for Flexible Exfoliated MoS2 for paper (Foyer) roll Production of SiOx/SiOxCyHz thin films deposited by low sorted semiconducting 13:30 – 13:50 Transparent Conductive Films based supercapacitors Dr. Vahid temperature ICP-PECVD SWCNTs of silver ink on PET Ms. Viviane Alecrim(Mid Akhavan(NovaCentrix, Untied Dr.Jie Liu(Institute of Microelectronics, Chinese Prof. Jianwen Zhao(Suzhou Dr. Xin Li(Xi’an Jiaotong Sweden University, Sweden) States) Academy of Sciences,China) Institute of Nanotech and nano- University, China) bionics, Chinese Academy of Sciences,China)
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 22 , Wednesday ,Day 3(3/4) [O-361] Fabrication of Solution- [O-410] [O-347] Processed Oxide [O-384] [O-370] A Rapid Electroplating Method Fully Transparent Tin doped Semiconductor Transistors Paper-based supercapacitor Improving the organo-silicon barrier film for Conductivity Enhancement Zinc Oxide Thin Film Transistor using Microwave and Photo electrodes prepared by a 13:50-14:10 deposited by magnetron PECVD of Transparent Silver Fabricated on Flexible PET Sintering Process papermaking technique Prof.Chien-Cheng Kuo(National Central NanowireThin Films Substrate Dr.Hea-Jeong Mr.Hidetsugu Tonomura(Osaka University,Taiwan) Ms. Shih-Chien Lin(National Mr.Zhuofa Chen(Peking Cheong(National Institute of University, Osaka, Japan) Taiwan University, Taiwan) University,China) Advanced Industrial Science and Technology, Japan) [O-342] [O-208] [O-444] [O-265] [O-428] Low temperature solution Rapid Photo-Sintering Flexible Blue Organic Light Emitting Diodes Fine Line Printing in Touch How “Green” Can a Paper- processed IGZO thin film Techniques for Printing Based on Graphene/PEDOT:PSS Composite Sensor by Roll-to-Roll Gravure based Printed Circuit Be? --- transistors 14:10-14:30 Devices Conductive Fil Offset Printing --- Fabrication and Life Cycle Dr.Zheng Chen(Suzhou Institute Dr.Jinting Jiu (Osaka Dr.Qun-ying Zeng(Fuzhou University, Fujian, Dr.Chen-Kun Chen(Industrial Assessment of Nano-Tech and Nano-Bionics University,Japan) China) Technology Research Institute, Prof. Cheng Yang(Tsinghua (SINANO), Chinese Academy Exhibition ITRI, Taiwan) University,China) of Sciences,China) (Foyer) Oct. 22 [O-483] [O-325] [O-375] Magnetic Ink Based on Barium [O-499] [O-374] Planarization of Ag nanowire Printed silver nanowires track Ferrite and Its Application for OTFT active-matrix driver on A NEW SiO2-SILICONE HYBRID INSULATOR films for flexible OLED 14:30-14:50 by laser process Magnetic Recording Paper printer paper substrate FOR FLEXIBLE OLED DISPLAYS application as bottom electrode Dr.Teppei Araki(Osaka Prof. Yaling Li (Beijing Mr. Boyu Peng(The University Dr. Lin Han(Yale University,United States) Mr. Sunho Kim(SungKyunKwan University,Japan) Institute of Graphic of Hong Kong, Hong Kong) Univ., Korea ) Communication,China) [O-294] [O-250] Inkjet Printing of graphene Film Customised Solutions for with High Conductivity from Rapid Photonic Processing Weakly Oxidized Graphene 14:50-15:10 Mr.Martin Brown(Heraeus Oxide Noblelight Ltd.,United Prof.Jinhong Du (Institute Kingdom) of Metal Research, Chinese Academy of Sciences,China) 15:10-15:30 15:30 – 16:00 Coffee break(Foyer) 16:00 – 18:00 Poster session(Foyer) 19:00 – 21:00 Conference banquet(Grand Ball Room)
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 23 , Thursday ,Day 4(4/4) “The Future Prospect and challenges of Printed Electronics” 9:00 – 10:00 Sang-Yoon Lee(Plenary talk 5 Auditorium of BJUT) 10:00 – 10:30 Coffee break(Foyer) Invited session 11 Invited session 12 Invited session 13 Invited session 14 Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room (Chair: Hoo-Jeong Lee) (Chair: Kazuhiro Kudo) (Chair: Lei Wang) (Chair: Yanlin Song)
Automated Continuously- A study on solution processed Nanomaterials for printed Fully printed OTFT devices and integrated Exhibition Manufacturing Line for All- OLED lighting device by non- electronics: from basic science 10:30 – 11:00 circuits on plastic film substrates (Shizuo (Foyer) Printed TFT-Array Flexible contact printing techniques to applications (Shlomo Tokito) Film (Shinichi Nishi) (KANG, Kyung-Tae) Magdassi ) Liquid crystals for organic field effect Offset Printing Process and Flexible electronics Paper Battery and its transistors -How we can utilize the liquid 11:00 – 11:30 Equipment for 1um Pattern development in ITRI (Jupiter Application in Sensor RFID Tag crystallinity in device fabrication and device Width Printing (Taikmin Lee) Hu) (Dr. Xiachang Zhang) performance? (Jun-ichi Hanna) 11:30 – 13:00 Lunch break Printing process (3) Flexible sensor (3) Printed circuits Conductive ink Grand Ball Room 1 Grand Ball Room 2 Grand Ball Room 3 Peony Room (Chair: Taikmin Lee) (Chair: Ting Zhang) (Chair: Shizuo Tokito) (Chair: Luhai Li) Oct. 23 [O-346] [O-353] Modeling and Optimizing Synthesis of PEDOT coating on [O-435] Industrial Inkjet Printhead PI by liquid phase depositional Low temperature fabrication of for Printable Electronics [O-371] polymerization and conductive copper-silver lines Fabrication A Triboelectric Based Flexible Tactile Sensor selective copper metallization using screen printing 13:30 – 13:50 Dr.Lianbo Ma(Shenyang for Safety Monitoring of PI with 172 nm VUV and Prof.Bongkot Institute of Mr.Mengdi Han(Peking University,China ) electroplating Sakunchangsanoh Automation,Chinese Prof.Jianxiong Li(South China (Chulalongkorn Academy of Sciences University of Technology,China University,Thailand ) ,China ) ) [O- 421] [O-474] [O-270] Silver-based Conductive Novel Approaches to Static [O-298] High-Resolution Printed Nanomaterials for Printed control in Flexible Electronics Monolithic Integration of a Flexible Micro Circuits for High Performance Electronics 13:50-14:10 Production Thermal Flow Sensor Prototyping Dr.Qijin Huang(Ningbo Institute Mr. Steve Heymann(Simco- Mr. Shuai Zhao(Tsinghua University,China) Dr. Ping Mei(Palo Alto Research of Material Technology and Ion Technology Group , Center,United States) Engineering, Chinese Academy United States) of Sciences,China)
-46- -47- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Oct 23 , Thursday ,Day 4(4/4) [O- 376] [O-397] [O-411] [O-419] Roll-to-Roll Gravure Printed Effect of preheater on register The Printed Surface Acoustic Printed anisotropic magnetoresistive Ag Patterns to Guarantee errors Wave Filter with Printed 14:10-14:30 patterns for gyro sensor application Printability and Functionality Dr.Sung Woong Electronics Technology Mr.Junfeng Sun (Sunchon National toward Mass Production Jeon(Chungnam National Mr. Kun Li(Tianjin University of Univ.,Korea) Mr. Janghoon Park(Konkuk University, Korea) Technology,China) Univ., Korea) [O-297] [O-293] [O-443] An Electroless-Plating-Like [O-340] Fabrication of ultrathin free- Carbon nanotubes (CNTs) Solution Deposition Approach Aerosol-jet printing of nanowire networks of standing ceramic chips based based Ink for Flexible for Large-Area Flexible Thin zinc octaethylporphyrin and its application on screen printing Electronics Devices 14:30-14:50 Film of Transition Metal Oxide in flexible photodetector Prof.Chunping Jiang(Suzhou Mr. Milind V. Mr.Liangzhuan Wu(Technical Prof. Feng xia-Wang (Suzhou Institute Institute of Nano-Tech and Kulkarni(Nanocomposite Institute of Physics and of Nano-tech and Nano-bionics, Chinese Nano-Bionics, Chinese Laboratory, Centre for Material Oct. 23 Chemistry, Chinese Academy Academy of Sciences,China) Academy of Science,China) for Electronics Technolog,India) of Sciences,China) [O-521] [O-207] Non-invasive Wireless And Passive MEMS Electrical and optical properties
Intraocular Pressure Sensor Based on of AZO/Ag bilayer films by 14:50-15:10 Flexible Substrate transfer printing method Ms. Lijuan Liu(Institute of Electronics, Mr. Myoung-Soo Kim(INHA Chinese academy of sciences,China) University ,Korea) [O-473] Nanoscale Electronic Materials, Printed Fine Circuits and Their 15:10-15:30 Applications Mr. Xingye Zhang (Institute of Chemistry, Chinese Academy of Sciences,China) End of conference
-48- -49- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
2014 ICFPE Oral Presentation List ID Paper Title Category Author Institution O-311 Efficient polymer solar cell using in situ fabricated CuS as anode modification layer Photovoltaic (1) Dr.Hongwei Lei Wuhan University,China Halogen-Free Solvent Processing for Sustainable Development of High O-356 Photovoltaic (1) Prof. Hin-Lap Yip South China University of Technology,China Performance Polymer Solar Cells Interface Materials and Solution Stability for Solution-Processed Organic O-284 Photovoltaic (1) Prof. Junliang Yang Central South University, China Photovoltaics Suzhou Institute of Nanotech and nano-bionics, O-313 Printed transparent top electrodes for organic solar cells Photovoltaic (1) Dr. Jian Lin Chinese Academy of Sciences,China O-527 World Standardization Effort in Printed Electronics Photovoltaic (1) Marc Carter and Jie Zhang IPC, Bannockburn, Illinois USA Suzhou Institute of Nano-Tech and Nano-Bionics Non-Planar Conjugated Small Molecules for Use in Printable Organic Photovoltaics O-503 Photovoltaic (2) Prof.Chang-Qi Ma SINANO, as Electron Acceptor Chinese Academy of Sciences,China O-277 CIGS Solar Cell based on all Printed Layers Photovoltaic (2) Dr.Manjeet Singh Osaka University, Japan Ultrafast Fabrications of Flexible Dye-Sensitized Solar Cells by Ultrasonic Spray Ulsan National Institute of Science and O-369 Photovoltaic (2) Prof. Tae-Hyuk Kwon Coating Technology Technology, Korea O-213 The morphology control of efficient perovskite solar cells Photovoltaic (2) Prof. Lixin Xiao Peking University, China O-254 Amorphous polymer source-gated transistors through digital lithography Organic TFT (1) Dr.Radu A. Sporea University of Surrey,United Kingdom Highly Stable Organic Thin-Film Transistor Backplane Fabricated On Gorilla Glass O-318 Organic TFT (1) Dr.YingtaoXie Shanghai Jiao Tong University, China Substrates Static and Dynamic Properties of C10DNTT-based Unipolar Logic with Coplanar O-354 Organic TFT (1) Dr.Tung-Huei Ke Interuniversity Microelectronics Centre,Belgium Device Structure Solution-Based Organic/Metal-Oxide Complementary Logic with Megahertz O-255 Organic TFT (1) Mr.Vincenzo Pecunia University of Cambridge,United Kingdom Operation Naphthalene Diimides-Based n-Type Organic Semiconductors towards Printed Shanghai Institute of Organic Chemistry, O-495 Organic TFT (1) Prof. Xike Gao Electronics: Molecular Design and Synthesis Chinese Academy of Sciences,China O-355 Analysis of calendering effect on the performance of printed OTFT Organic TFT (2) Mr.Sang Hoon Lee Konkuk University, Seoul, Korea VTT Technical Research Centre of O-197 Circuit Simulation for Printable TFTs Organic TFT (2) Dr. Ari Alastalo Finland,Finland Controlling the surface wettability of gate dielectric to improve resolution of inkjet- O-365 printed electrodes and pattern channel regions for all-solution-processed organic Organic TFT (2) Mr. Wei Tang Shanghai Jiao Tong University,China thin-film transistors Investigation on electrical stress over metal-insulator-metal (MIM) structures based O-251 Organic TFT (2) Mr.Kalyan Yoti Mitra Technische Universitaet Chemnitz, Germany on compound dielectrics for the inkjet-printed OTFT stability N-Channel and P-Channel Step-Edge Vertical-Channel Transistors Fabricated by O-345 Organic TFT (2) Prof. Kazuhiro Kudo Chiba University,Japan Printing Process Ultra-thin dielectric layer to enhance performance of all-printed organic diode VTT Technical Research Centre of Finland, O-408 Organic TFT (2) Prof. Himadri Majumdar operating as half-wave rectifier Finland O-249 Photonic Curing for Roll-to-roll Production Sintering and drying process Dr. Vahid Akhavan NovaCentrix, Untied States Fabrication of Solution-Processed Oxide Semiconductor Transistors using National Institute of Advanced Industrial O-361 Sintering and drying process Dr.Hea-Jeong Cheong Microwave and Photo Sintering Process Science and Technology, Japan O-208 Rapid Photo-Sintering Techniques for Printing Devices Sintering and drying process Dr.Jinting Jiu Osaka University,Japan O-375 Printed silver nanowires track by laser process Sintering and drying process Dr.Teppei Araki Osaka University,Japan
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institution O-250 Customised Solutions for Rapid Photonic Processing Sintering and drying process Mr. Martin Brown Heraeus Noblelight Ltd.,United Kingdom Fabrication of flexible OLED display using printed reflection electrode placed on the NHK Science & Technology Research O-282 OLED (1) Dr. Takahisa Shimizu reverse side of OTFT array Laboratories, Japan O-348 Novel thieno[32-c]pyridine based Ir complexes for solution/evaporation OLED OLED (1) Dr.Teng-Chih Chao Industrial Technology Research Institute, Taiwan Suzhou Institute of Nano-Technology and Nano- High Efficiency Ionic Iridium(III) complexes for Gravure Printed Light-emitting O-329 OLED (1) Dr.Jinyong Zhuang Bionics, Electrochemical Cells Chinese Academy of Sciences, China Synthesis and Application of Organic Materials Based on Excited-state O-493 OLED (1) Prof.Sanghyuk Park Kongju National University,Korea Intramolecular Proton Transfer (ESIPT) Research on the diffusion barrier performance of SiOx SiOxCyHz thin films Institute of Microelectronics, O-394 OLED (2) Dr.Jie Liu deposited by low temperature ICP-PECVD Chinese Academy of Sciences,China O-370 Improving the organo-silicon barrier film deposited by magnetron PECVD OLED (2) Prof.Chien-Cheng Kuo National Central University,Taiwan Flexible Blue Organic Light Emitting Diodes Based on Graphene/PEDOT:PSS O-444 OLED (2) Dr.Qun-ying Zeng Fuzhou University, Fujian, China Composite Conductive Film O-374 A NEW SiO2-SILICONE HYBRID INSULATOR FOR FLEXIBLE OLED DISPLAYS OLED (2) Dr. Lin Han Yale University,United States Electrical force assisted structuring for Flexible Transparent Conductive Films of O-299 Conductive films Dr. Xin Li Xi’an Jiaotong University, China silver ink on PET A Rapid Electroplating Method for Conductivity Enhancement of Transparent Silver O-410 Conductive films Ms. Shih-Chien Lin National Taiwan University, Taiwan NanowireThin Films Industrial Technology Research Institute, ITRI, O-265 Fine Line Printing in Touch Sensor by Roll-to-Roll Gravure Offset Printing Conductive films Dr.Chen-Kun Che Taiwan O-325 Planarization of Ag nanowire films for flexible OLED application as bottom electrode Conductive films Mr. Sunho Kim SungKyunKwan Univ., Korea Inkjet Printing of graphene Film with High Conductivity from Weakly Oxidized Institute of Metal Research, Chinese Academy O-294 Conductive films Prof.Jinhong Du Graphene Oxide of Sciences,China Fabrication and performance of flexible printed TFTs and logic circuits based on Suzhou Institute of Nanotech and nano-bionics, O-286 Iorganic TFT Prof. Jianwen Zhao polymer-sorted semiconducting SWCNTs Chinese Academy of Sciences,China Fully Transparent Tin doped Zinc Oxide Thin Film Transistor Fabricated on Flexible O-347 Iorganic TFT Mr.Zhuofa Chen Peking University,China PET Substrate Suzhou Institute of Nano-Tech and Nano-Bionics O-342 Low temperature solution processed IGZO thin film transistors Iorganic TFT Dr.Zheng Chen SINANO, Chinese Academy of Sciences,China Magnetic Ink Based on Barium Ferrite and Its Application for Magnetic Recording Beijing Institute of Graphic O-483 Iorganic TFT Prof. Yaling Li Paper Communication,China Prof.Bongkot O-435 Low temperature fabrication of conductive copper-silver lines using screen printing Conductive ink Chulalongkorn University,Thailand Sakunchangsanoh Ningbo Institute of Material Technology and O-421 Silver-based Conductive Nanomaterials for Printed Electronics Conductive ink Dr.Qijin Huang Engineering, Chinese Academy of Sciences,China Roll-to-Roll Gravure Printed Ag Patterns to Guarantee Printability and Functionality O-376 Conductive ink Mr. Janghoon Park Konkuk Univ., Korea toward Mass Production Centre for Material for Electronics O-443 Carbon nanotubes (CNTs) based Ink for Flexible Electronics Devices Conductive ink Mr. Milind V. Kulkarni Technolog,India
-52- -53- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institution Suzhou Institute of Nano-Tech and Nano- O-291 Carbon Nanotube/Graphene based Flexible Sensors & Actuators Flexible sensors (1) Prof.Wei Chen Bionics, Chinese Academy of Sciences,China Electric-field Assisted Hydrothermal Growth of ZnO Nanorods on Flexible Polyimide O-333 Flexible sensors (1) Prof. Rong Zhu Tsinghua University, China Substrate and Their Strain Sensing Applications O-426 Fabrication of Transparent Photodetectors with Direct Printing Method Flexible sensors (1) Mr.Shih-Pin Chen National Taiwan University, Taiwan O-218 Flexible Pressure Sensor Based on Silver Nanowire Networks Flexible sensors (1) Mr.Jun Wang Osaka University, Japan Kilometer long piezoelectric PVDF nanoribbon arrays for flexible energy harvesting O-309 Flexible sensors (1) Mr.Mehmet Kanik Bilkent University, Turkey and sensing applications Dr.Fabrice Domingues O-214 Fluorinated Electroactive Polymers for Printed Electronic Flexible sensors (1) Piezotech,France dos Santos O-401 Intrinsically Stretchable Semiconducting Polymers for Organic Electronics Flexible sensor (2) Prof. Longzhen Qiu Hefei University of Technology,China An ultrathin and stretchable inorganic biosensor for movement and vital signs O-494 Flexible sensor (2) Mr.Yihao Chen Tsinghua University, China monitoring Controllable Wrinkle Configurations by Soft Micro-Patterns to Enhance the O-498 Flexible sensor (2) Dr. Yin Huang Tsinghua University,China Stretchability of Si Ribbons Ultra-flexible PiezoelectricDevices Integrated With Heart to Harvest the O-501 Flexible sensor (2) Ms. Ying Chen Tsinghua University, China Biomechanical Energy Capacitive Pressure Sensor Using Printed Stretchable Conductor with Beijing Institute of Graphic O-266 Flexible sensor (2) Ms.Yuqun Hou Microstructural Patterns Communication,China O-219 Value Enhancement of Critical Substrates for Flexible Electronics Flexible sensor(2) Ms. Rebecca Wang Pillar Technologies., ,United Kingdom O-371 A Triboelectric Based Flexible Tactile Sensor for Safety Monitoring Flexible sensor(3) Mr.Mengdi Han Peking University,China O-298 Monolithic Integration of a Flexible Micro Thermal Flow Sensor Flexible sensor(3) Mr. Shuai Zhao Tsinghua University,China O-419 Printed anisotropic magnetoresistive patterns for gyro sensor application Flexible sensor(3) Mr.Junfeng Sun Sunchon National Univ.,Korea Suzhou Institute of Nano-tech and Nano- Aerosol-jet printing of nanowire networks of zinc octaethylporphyrin and its O-340 Flexible sensor(3) Prof. Feng xia-Wang bionics, application in flexible photodetector Chinese Academy of Sciences,China Non-invasive Wireless And Passive MEMS Intraocular Pressure Sensor Based on Institute of Electronics, Chinese academy of O-521 Flexible sensor(3) Ms. Lijuan Liu Flexible Substrate sciences,China Advanced Manufacturing System Division, O-433 Precision Measurement of Pattern Registration Accuracy in Printed Electronics Printing process (1) Dr. Byung Oh Choi Korea Thickness uniformity improvement of inkjet printed PEDOT and organic light- Changchun Institute of Applied Chemistry, O-199 Printing process (1) Prof.Yanchun Han emitting films Chinese Academy of Sciences,China Viscoelastic finite element analysis of roll transfer of heterogeneous devices onto O-343 Printing process (1) Mr.Si-Young Park ð University of Ulsan, Korea flexible substrate by using cohesive elements with multi-element interaction O-430 Flexible Multi-color Electrochromic Device via Inkjet Printing Process Printing process (1) Mr.Bo-Han Chen National Taiwan University,Taiwan Novel Fabrication Method of Roll Based Transparent Imprinting Mold for Flexible O-504 Printing process (1) Mr. Yun-Ho, KOO LG Display Co., Ltd., Korea Display O-475 Towards Zero Defects- Novel In-line Cleaning of Process Rollers Printing process (1) Ms. Sheila Hamilton Teknek Limited ,United Kingdom Electrohydrodynamic Direct-Write Micro/Nano Pattern with the Restriction of O-373 Printing process (2) Dr. Gaofeng Zheng Xiamen University,China Inducing Tip
-54- -55- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institution Huazhong University of Science and O-209 Multifunctional electrohydrodynamic printing Printing process (2) Prof. YongAn Huang Technology,China O-280 Anisotropic and Isotropic Strain Photolithography Printing process (2) Dr.Cheng-Yao Lo Tsing Hua University,China Chengdu Green Energy and Green Sustainable Treatment Method on PDMS Surface for Printed Electronics: Modeling O-337 Printing process (2) Prof. Yu Liu Manufacturing Experiment and Characterization Technology R*D Center, China O-440 The Production process for the Printed Electronics Printing process (2) Mr.Shoujun Li Kunshan Printed Electronics Ltd.,China State-of-the-art inkjet printing technology for printed electroncs Printing process (2) Dr. Jiepeng Liu Nikyang Enterprise Limited,China Modeling and Optimizing Industrial Inkjet Printhead for Printable Electronics Shenyang Institute of Automation,Chinese O-346 Printing process (3) Dr.Lianbo Ma Fabrication Academy of Sciences,China O-474 Novel approch to static control in flexible electronics production Printing process (3) Mr. Steve Heymann Simco-Ion Technology Group ,United States O-397 Effect of preheater on register errors Printing process (3) Dr.Sung Woong Jeon Chungnam National University, Korea An Electroless-Plating-Like Solution Deposition Approach for Large-Area Flexible Technical Institute of Physics and Chemistry, O-297 Printing process (3) Mr.Liangzhuan Wu Thin Film of Transition Metal Oxide Chinese Academy of Sciences,China Synthesis of PEDOT coating on PI by liquid phase depositional polymerization and O-353 Printed circuits Prof.Jianxiong Li South China University of Technology,China selective copper metallization of PI with 172 nm VUV and electroplating O-270 High-Resolution Printed Circuits for High Performance Prototyping Printed circuits Dr. Ping Mei Palo Alto Research Center,United States O-411 The Printed Surface Acoustic Wave Filter with Printed Electronics Technology Printed circuits Mr. Kun Li Tianjin University of Technology,China Suzhou Institute of Nano-Tech and Nano- O-293 Fabrication of ultrathin free-standing ceramic chips based on screen printing Printed circuits Prof.Chunping Jiang Bionics, Chinese Academy of Science,China O-207 Electrical and optical properties of AZO/Ag bilayer films by transfer printing method Printed circuits Mr. Myoung-Soo Kim INHA University ,Korea Institute of Chemistry, Chinese Academy of O-473 Nanoscale Electronic Materials, Printed Fine Circuits and Their Applications Printed circuits Mr. Xingye Zhang Sciences,China O-360 Paper Battery and its Application in Sensor RFID Tag Paper electronics Dr.Xiachang ZHANG Kunshan Printed Electronics Ltd. ,China O-436 Exfoliated MoS2 for paper based supercapacitors Paper electronics Ms. Viviane Alecrim Mid Sweden University, Sweden O-384 Paper-based supercapacitor electrodes prepared by a papermaking technique Paper electronics Mr.Hidetsugu Tonomura Osaka University, Osaka, Japan How “Green” Can a Paper-based Printed Circuit Be? ------Fabrication and Life O-428 Paper electronics Prof. Cheng Yang Tsinghua University,China Cycle Assessment O-499 OTFT active-matrix driver on printer paper substrate Paper electronics Mr. Boyu Peng The University of Hong Kong, Hong Kong O-283 Patterning and Thin Film layer application methods for Printed Electronics OE-A Mr.Thomas Kolbusch Coatema Coating Machinery GmbH,German Prof. Reinhard R. O-511 Digital Fabrication - smart systems manufacturing based on printing OE-A (Germany) Baumann Printed functional anodes for OLED Lighting and OPV to reduce cost and O-512 OE-A Prof. Armin Sautter (Germany) manufacturing complexity Transferring Photonic Curing Processing from R&D to Production: Equipment, O-513 OE-A Dr. Vahid Akhavan (USA) Processing, and Characterization Innovations on Nanomaterials & Processes for the low-cost fabrication of flexible O-514 OE-A Prof. Stergios Logothetidis (Greece) organic photovoltaic cells
-56- -57- 2014 The International Conference
International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
2014 ICFPE Poster Presentation List ID Paper Title Category Author Institute Synthesis of carbazole- and benzothiadiazole-containing acceptor-donor-donor- P-301 acceptor (A-D-D-A) type conjugated small molecules for organic photovoltaic (OPV) Photovoltaic Ms. Inyoung Hwang Kongju National University,Korea cells Study of Inorganic Hole Transporting Layer on Organic Solar Cell and its P-312 Photovoltaic Prof. Guojia Fang Wuhan University,China Applications Suzhou Institute of Nano-Tech and Nano-Bionics Dithiophene derivatives of 48-Bis(thienyl)-benzo[12-b:45-b′] with different P-321 Photovoltaic Ms. Ni Yin (SINANO), π-conjugation chains for solution-processed small molecular solar cells Chinese Academy of Sciences,China Suzhou Institute of Nano-Tech and Nano-Bionics Organic-inorganic hybrid electron transporting buffer layer in inverted polymer solar P-341 Photovoltaic Ms. Na Wu (SINANO), cells Chinese Academy of Sciences,China Suzhou Institute of Nano-Tech and Nano-Bionics DCV-end-capped oligothiophene as electron acceptor in bulk-heterojunction P-350 Photovoltaic Mr. Jian-Chang Wu (SINANO), organic solar cell Chinese Academy of Sciences,China Suzhou Institute of Nano-Tech and Nano-Bionics Synthesis and Property Investigations of Low Band-Gap 3D Dendritic P-352 Photovoltaic Dr. Wei Gao (SINANO), Oligothiophenes Chinese Academy of Sciences,China P-399 Low-temperature processed TiO2 NPs for organics solar cells Photovoltaic Dr. Jian Xiong Central South University,China P-402 High performance polymer solar cells based on a novel donor material Photovoltaic Mr.Shi Yan Beijing Jiaotong University,China P-404 Graphene derivatives as an interfacial layer for highly-efficient polymer solar cells Photovoltaic Ms. Sae-Mi Park Chonbuk National University,Korea P-406 Flexible organic solar cells using graphene oxide anode interfacial layer Photovoltaic Mr. Sujie Chen Shanghai Jiao Tong University,China Study on Plasmonic enhancement of Au nanorod for broadband light absorption in P-417 Photovoltaic Ms. Eun-Seon Jung Chonbuk National Univ,Korea inverted organic photo voltaic devices Modifying Properties of Organic Solar Cells by Solution-processed Metal Chlorides P-424 Photovoltaic Ms. Eun-Su Choi Chonbuk National University,Korea Doped Graphene Oxide Plasmonic effect of Ag nanostructures on planar heterojunction perovskite solar P-420 Photovoltaic Ms. Jin-Won Lee Chonbuk National University,Korea cells P-367 MoO3/Ag/MoO3 multilayer anode for semitransparent organic photovoltaic cells Photovoltaic Prof. Sungwoo Bae Hanbat National University,Korea A highly efficient mesoscopic solar cell based on CH3NH3PbI3-xClx fabricated via P-261 Photovoltaic Dr.Lixin Xiao Peking University,China sequential solution deposition Synthesis of Substituted μ-oxo-bis[tetra-phenylporphyrinatoiron] Compounds and P-278 Photovoltaic Dr. Zhicheng Sun Beijing Institute of Graphic Communication,China Potential Applications in Dye Sensitized Solar Cells P-413 Perovskite CH3NH3PbI3 Heterojunction Solar Cells via Ultrasonic Spray Deposition Photovoltaic Mr. Xiao Du Peking University,China P-445 Electronic Structures and Spectroscopy of AnBn-Zn-Porphyrin Photosensitizers Photovoltaic Dr. Meijuan Cao Beijing Institute of Graphic Communication,China Inkjet Printed Silver Nanowire Network as Top Electrode for Organic P-351 Photovoltaic Ms. Hui Lu Shanghai University,China Solar Cell Devices Fiber-shaped organic solar cells based on 1-dimensional flexible and conductive P-392 Photovoltaic Mr. Yong-Jin Noh Chonbuk National University,Korea electrodes Employing Solution-Processed Polymer/Fullerene Blending Electron-Transport P-407 Photovoltaic Ms. You-Hyun Seo Chonbuk National University,Korea Layers for High Performance Organic-Inorganic perovskite Solar Cell Polymer composition interlayer for efficient perovskite/PCBM planar heterojucntion P-423 Photovoltaic Ms.Da-Young Lee Chonbuk National University,Korea solar cells
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institute Synthesis of Nitro-functionalized A3B-tetraphenylporphyrins Compounds and Institute of Electronics, Chinese academy of P-515 Photovoltaic Ms. Hui Li Potential Applications in Dye-sensitized Solar Cells sciences, China Improved Synthesis of 5-(R-group)-10, 15, 20-tris(4-methylphenyl)porphyrins as P-518 Photovoltaic Ms. Tingwen Jia Beijing University of Technology,China Starting Compounds for the Preparation of Potential Sensitizer in Solar Cells Poly(4-vinylphenol-co-methyl methacrylate)/Y2O3 Nanocomposite Gate Dielectrics P-263 Organic TFT Ms. Xue Zhang Hallym University,Korea for Organic Thin-Film Transistor Application National Centre for Nanoscience and P-302 Very Large-sized Thin Organic Single Crystal and Its Device Application Organic TFT Dr. Ji Dong Technology,China High Performance Bottom-Contact Organic Thin Film Transistors Using Chemically P-319 Organic TFT Dr. Yingtao Xie Shanghai Jiao Tong University,China Modified Silver Contacts and Dielectric Surfaces All solution processed low-voltage organic thin-film transistor and inverter on plastic P-364 Organic TFT Mr. Linrun Feng Shanghai Jiao Tong University,China substrate P-387 Fabrication and Performance Evaluation of Back-gate Transistors Organic TFT Mr. Yoonki Min Konkuk University,Korea High-Effective Organic Thin-Film Transistors Based on Photo-Switching application P-381 Organic TFT Ms.Hyunji Shin Hongik University, Korea using TiO2 nano-particles as gate dielectric Solution-processed Low-voltage Flexible Organic Thin Film Transistor Based on P-396 Organic TFT Mr. Xianyi Shao Shanghai Jiao Tong University,China Ion-gel Gate Insulator Well-controlled and site specific large-sized Pentacene crystal grown through seed- National Centre for Nanoscience and P-290 Organic TFT Ms. Syeda Atika Arabi induced PVT method Technology,China P-415 Dip-Coating of Patterned Organic Semiconductor Films Organic TFT Mr. Meng Zhi Qin Hefei University of Technology,China Influence of Alkyl Chain Position (Located at Donor or Acceptor) on the Huazhong University of Science and P-211 Performances of Diketopyrrolopyrrole-benzodithiophene Copolymers for Organic Organic TFT Mr. Ping Li Technology,China Thin-Film Transistors P-497 High sensitivity organic phototransistor with nonvolatile memory property Organic TFT Mr. Xiaochen Ren The University of Hong Kong,Hong Kong Proving Scalability of Fully R2R Gravure Printed Carbon Nanotube Based Flexible P-422 Organic TFT Mr.Wookyu Lee Sunchon National University, Sunchon, Korea Thin Film Transistors Backplane The effect of post-annealing temperature of gate dielectric on the performance of P-522 Organic TFT Lijuan Liang Beijing Institute of Graphic Communication,Beijing OTFT memory P-258 Sintering Cu2O nanoparticles aggregate paste at low temperature Sintering and drying Dr. Jiang Jianwei Kongju National University,Korea Copper Nanoparticle Ink for Reverse Offset Printing and Intense Flash Light P-264 Sintering and drying Mr. Masayoshi Koutake DIC Corporation,Japan Sintering Suzhou Institute of Nano-Tech and Nano-Bionics P-310 Low temperature photonic annealing of solution processed ITO film Sintering and drying Mr. Teng Zhou (SINANO), Chinese Academy of Sciences,China Suzhou Institute of Nanotech and nano-bionics, P-323 Intense pulsed light sintering of copper nanoink for conductive copper film Sintering and drying Mr. Weibing Gu Chinese Academy of Sciences,China Near-infrared (NIR) sintering of metal meshed films for flexible transparent P-383 Sintering and drying Ms. Yeonkyeong Ju Korea Institute of Machinery and Materials ,Korea electrodes P-400 A Study on Heat Treatment of Ag Paste for FPCB Sintering and drying Mr. Jaekyun Ko Hanyang University,Korea A study on drying and sintering performance and reliability of metal electrode for P-409 Sintering and drying Mr. LongTian Chi Hanyang University,Korea the use of roll-to-roll heat treatment process P-248 Photonic Curing of Semiconductor Thin Films Sintering and drying Dr. Vahid Akhavan NovaCentrix,United States P-472 Millisecond flash photonic sintering of inkjet-printed silver ink on plastic substrate Sintering and drying Mr. Olivier Baudino Centre Microélectronique de Provence,France
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institute Analyzing Drying Performance of Hybrid Drying System in Roll-to-Roll Process P-366 Sintering and drying Mr. Seung Min Shin Hanyang University.,Korea using Various Heat Sources Air stable copper-zinc nanoparticles for low temperature fabrication of conductive Ms. Raweewan P-437 Inks Chulalongkorn University,Thailand patterns Thongprachan P-425 Synthesis of new type CuInS2 nanocrstal ‘inks’ Inks Ms. Xin Wang Xiamen University,China Synthesis and characterization of polyaniline doped with anionic spherical P-386 Inks Ms. Qianqian Dong Wuhan University,China polyelectrolyte brushes One-pot Synthesis of UV-curable Au/PEDOT Conductive Ink by Using Amphiphilic P-382 Inks Mr. Yulin Zhang Jiangnan University,China Polymer PSMH as Templates P-379 Stabilization of Nanoparticle Suspensions Using Microchannels Inks Ms. Ju-Yen Sun National Taiwan University,Taiwan P-372 Facile Synthesis of Stable Ag Nanoparticles Inks Dr. Ziqiang Zhu Wuhan University,China Solvothermal synthesis of monodispersed copper nanoparticles for printable copper Ms. Shuangshuang Suzhou Institute of Nano-Tech and Nano- P-327 Inks ink Shao Bionics,China Flexible Thin-Film Transistors Based on PF8DPP-Sorted Semiconducting Carbon P-315 Inks Mr. Xiang Zhang Shanghai University,China Nanotubes inks Suzhou Institute of Nano-Tech and Nano-Bionics, P-314 Preparation of BaTiO3/PMMA Dielectric Films by Screen Printing Inks Prof. Xinzhou Wu Chinese Academy of Sciences,China A New Approach to Synthesize Silver Nanocubes Used in Preparation of University of Electronic Science and Technology of P-300 Inks Prof. Wei He Conductive inks China P-288 Preparation of Conductive Ink for Organic Polymer Solar Cell Inks Ms. Wei Liu Beijing Institute of Graphic Communication,China P-267 Preparation of Fe3O4 with Solvethermal method and Its Electrochemical Properties Inks Ms. Fuyan Zhao Beijing Institute of Graphic Communication,China Synthesis and Size Control of Monodisperse and Ultrafine Iron Oxide Nanocrystals P-268 Inks Ms. ChengMei Liu Beijing Institute of Graphic Communication,China by Solvothermal Method P-252 AlGaInP light-emitting diodes with Ag nanowires as current-spreading layer Inks Mr. Chunwei Guo Beijing University of Technology,China P-438 Preparation of Au-Ag Nanoframe and its Application in SERS Inks Prof. Zhiqing Xin Beijing Institute of Graphic Communication,China P-439 Preparation of Triangular Silver Nanoplates and its Application in Printed Electronics Inks Prof. Zhiqing Xin Beijing Institute of Graphic Communication,China Development of Water Dispersible Conducting Polyaniline (PANI) – Carbon P-442 nanotubes (CNTs) Nanocomposite via Dynamic, Liquid-liquid Interfacial Inks Dr. Milind V. Kulkarni Centre for Material for Electronics Technology ,India Polymerization Process P-448 Conductive improvement of flexography printed silver pattern by water washing Inks Dr. Yi Fang Beijing Institute of Graphic Communication,China Synthesis and Mesophase of A Triphenylene-based Discotic Liquid Crystal with P-479 Inks Mr. Jianchuang Wang Beijing Institute of Graphic Communication,China plastic columnar phase P-478 Synthesis and Mesophase of A chiral Triphenylene-based Discotic Liquid Crystal Inks Mr. Shuaifeng Zhang Beijing Institute of Graphic Communication,China P-500 Controllable Synthesis of Silver Nanospheres with Uniform Size Inks Ms. Yu-Xia Zhao Beijing Institute of Graphic Communication,China The Preparation of Ag-MPA (3-Mercaptopropionic Acid) and Its Insulating- P-269 Inks Mr. Qing-bin Zhai Beijing Institute of Graphic Communication,China Conductive Transformation Mechanism Reaction routes for the formation of a Cu2ZnSn(S,Se)4 absorber material from P-524 Inks Xianjun Wu homogenous dimethyl sulfoxide-based Ink Daegu Gyeongbuk Institute of Science and P-216 Development of wind-driven mechanoluminescent display OLED Dr. Soon Moon Jeong Technology,Korea Mechanoluminescence-induced-fluorescence from ZnS-embedded- Daegu Gyeongbuk Institute of Science and P-217 OLED Mr. Seongkyu Song polydimethylsiloxane elastomer functionalized with organic dyes Technology,Korea
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
ID Paper Title Category Author Institute Flexible Ag Grid Transparent Conductive Films and Their Application in Organic P-317 OLED Ms. Fei Fei Suzhou Institute of Nanotech,China Light-Emitting Diodes PEDOT:PSS Patterning with Fluorinated Materials and its Application in Organic P-324 OLED Mr. Shihong Ouyang Shanghai Jiao Tong University,China Light Emitting Diodes PEDOT:PSS Patterning with a Silver Interlayer and its Application in Organic Light P-326 OLED Mr. Shihong Ouyang Shanghai Jiao Tong University,China Emitting Diodes Suzhou Institute of Nano-Technology and Nano- An Efficient Flexible Organic Light Emitting Device with Molybdenum Oxide Doped P-336 OLED Mr. Minshun Song Bionics, Conductive Polymer Anode Chinese Academy of Sciences,China Suzhou Institute of Nano-Technology and Nano- Screen-Printed Micro-Structured Conductive Polymer Anode for Organic Light P-339 OLED Ms. Lu Zhou Bionics, Emitting Diodes Chinese Academy of Sciences,China Inkjet printed undoped small molecular film as emitting layer in organic light- Institute of Polymer Optoelectronic Materials and P-432 OLED Ms. Huimin Liu emitting devices Device,China Suzhou Institute of Nano-Technology and Nano- Improving the Performance of Light-emitting Electrochemical Cells with Thin film P-344 OLED Ms. Shuhong Nie Bionics, Buffer Layer Chinese Academy of Sciences,China P-429 Highly Flexible Organic Light Emitting Diodes using Ultra-thin Polymer Substrate OLED Ms. Mi Jang Chonbuk National University,Korea Highly Stretchable Transparent Conductive Electrodes for Organic Lighting Emitting P-405 OLED Mr. Keum-Jin Ko Chonbuk National University,Korea Diode Application P-253 Percolative Behavior of Silver Nanowires with Different Aspect Ratio TCF Mr. Gui-Shi Liu Sun Yat-Sen University,China Fabrication of the ITO free flexible Ag grid mesh substrates using thermal roll- P-259 TCF Dr. Jung Min Cho Hanbat National University,China imprinting methods P-260 Haze Control of Ag Nanowire Transparent Conductive Film by Coating SnO2 TCF Mr. Young-Sun Kwon Kongju National University,Korea P-262 Direct Printed Metal Mesh by Roll-to-Roll Gravure Off-set Printing System TCF Dr. Sheng-Feng Chung Industrial Technology Research Institute,Taiwan One Step Solvothermal Reaction to Synthesis High Aspect Ratio Silver Nanowires P-295 TCF Mr. Xingda Xia Central South University,China and the Application in Flexible Transparent and Conductive Films Biocompatible flexible transparent electrode based on silk fibroin film/Ag nanowires Suzhou Institute of Nanotech and Nano-bionics, P-328 TCF Dr. Wei Yuan composites Chinese Academy of Sciences,China P-359 Pattern Design of Silver Grid Transparent Electrode TCF Ms. Qiao Hu Central South University,China P-362 Transparent electrodes printed on transparent nanopaper TCF Ms. Akane Tanaka Uematsu Co. Ltd,Japan P-322 Ink-jet Printed Nanostructure Thin Films of Aluminum Doped Zinc Oxide TCF Ms. Wenxiu Zhao Wuhan University,China Study on robustness of flexible solar cells based on silver nanowire (Ag NW) P-320 TCF Mr. Hyun Soo Cho Kongju University,China transparent electrode Study on Fabrication of Transparent Conductive PEDOT/PET Film by Liquid Phase P-378 TCF Ms. Yaxiao Ma South China University of Technology,China Depositional Polymerization P-446 7.85” Touch Panel by Gravure Offset Printing Technique TCF Mr. Sheng-An Kuo AU Optronics Corporation,Taiwan Synthesis of polymer surfactantcan to increase the efficiency of CNT transparent P-245 CNT+graphene Mr. Junehoi Jung Kongju University,Korea electrode Suzhou Institute of Nano-tech and Nano- P-316 CMOS Inverters Based on Printed Carbon Nanotube Thin Film Transistors CNT+graphene Ms. Wenya Xu bionics,China Printed Carbon Nanotube Thin-Film Transistors with Small Hysteresis on Rigid/ P-335 CNT+graphene Mr. Weiwei Xu Shanghai University,China Flexible Substrates
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
SPONSORS & EXHIBITIONS Tradeshow Theatre
Please come and visit our exhibits at the ICFPE 2014. They will be located on the 3rd and will demonstrate some of the lasted technologies in the area of Flexible and Printed Electronics. The Booth No Sponsors exhibitor tables will be open on Tuesday-Thursday (October 21-23, 2014).
1 The Printable Electronics Research Centre
2 Changzhou Institute of Printed Electronics Industry
3 Siansonic Technology Co., Ltd.
4 PSTEK CO,.LTD
5 Yi Xin Technology
6 NIKYANG Enterprise Limited
7 Shanghai Ruidu Photoelectric Co.,Ltd.
8 Shenzhen Shining Automation Co. Ltd.
9 KunShan Hisense Electronic Co.,Ltd.
10 National Innovation Alliance of Printed Electronics Industrial Technology
14 Coatema Coating Machinery GmbH
15 Sigmatek Corporation
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
High-tech Zone on September 9th, 2013. Registered by Changzhou City and Changzhou High- The Printable Electronics Research Centre tech Zone with RMB 50 million. The fi rst director of the institute is assumed by Dr. Zhang Xiachang, deputy secretary general of China National Innovation Association of Printed Electronics Industry and president of Kunshan Printed Electronics Co., Ltd. Currently, the institute has completed the preparation of three important projects:1. Piloting platform; 2.Laboratory, database and test platform; 3. Exhibition hall. 1 The printed electronics piloting platform can provide service for printed electronics products or project http://www.sinano.cas.cn/ companies and help them to complete large-scale production from printed electronics technology. Another important function is to research and develop the integrated technology of printed electronics The Printable Electronics Research Centre (PERC) at Suzhou Institute of Nanotech and Nano- products. tech and Nano-bionics (SINANO), Chinese Academy of Sciences, is the first center established Printed electronics laboratory, database and test platform are also used for the development and in China, which has the sole focus on scientific research and technology development of printed gathering of printed electronics industrial chain. The institute purchased advanced and general electronics. The founder of PERC, Professor Zheng Cui, has over 20 years working experience instruments, tools, and laboratory devices, constructed the database for printed electronics industry. at Cambridge University and Rutherford Appleton Laboratory in the UK before returning to China The Institute will build the world’s first entity exhibition hall in the field of printed electronics, which in October 2009. Application oriented R&D activities are being conducted at PERC in the areas of will introduce the development history of printed electronics, present the status quo of global printed electronics inks formulation, printing processes and equipments, printed thin-film transistors and electronics products as well as the future development prospects of this industry. photovoltaic, development of organic light emitting devices and encapsulation. The Center now has 57 researchers, over 1500m2 laboratory space and is working on more than 30 state and private enterprise funded research projects. An engineering center as well as an industrial company, Suzhou NanoGrid Technology Ltd. (NGT), has also been setup to bridge the gap between scientifi c research Siansonic Technology Co., Ltd. and engineering development, with the aim of eventually leading to marketable products. Since it was established, a novel technology has been developed to make fl exible transparent conductive fi lms to replace ITO as transparent electrodes. The technology has been implemented at O-fi lm Inc. in high volume manufacturing for touch panels which have entered market.
3 http://www.df-jr.com/ Changzhou Institute of Printed Electronics Industry
Siansonic Technology Co., Ltd. is a leading manufacturer of piezoelectric and ultrasonic devices. ISO9001:2008 and ISO14001:2004 are certificated. The main products include ultrasonic spray coating nozzle and system, megasonic cleaning nozzle, ultrasonic sensors and transducers. The ultrasonic spray coating technology which is a novel spray coating technology is widely used for nano thin fi lm coating and nano particles manufacture. Megasonic cleaning technology whose frequency is 2 800kHz-3000kHz is mainly used for high precise cleaning for semiconductors, glass and lens. http://www.czipei.com/
Changzhou Institute of Printed Electronics Industry is located in Changzhou, Southern Jiangsu Province, adjacent to Shanghai, Nanjing. It is the first institute in China established by local government engaging in printed electronics technology industrialization. Also it’s playing the role of integrating software and hardware in printed electronics fi eld. The inaugural meeting of Changzhou Institute of Printed Electronics Industry was held in Changzhou
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
of variability for deposited feature diameters as small as 10% can be achieved. A wide range of fl uids PSTEK CO,.LTD can be used, including aqueous solutions and many organic-solvent-based mixtures. Fluids that other dispensers struggle with, such as saturated solutions for MALDI-ToF matrices, or fl uids with viscosities up to 450 cP, can be deposited with ease. The ultrasonic pumping action is also an effi cient cleaning mechanism for quickly depositing many solutions sequentially.
In addition to spots, the GIX Microplotter II can draw true continuous features, such as lines, arcs, and bends. These are uniform elements, not made from overlapping droplets like other technologies, and 4 are particularly well-suited to the polymer electronics fi eld. 1028-16,Hogye-dong,Dongan-gu, Anyang-City, Kyunggido, Korea www.pstek.co.kr
The competitiveness of PSTEK, one of the leaders in the power supply industury, NIKYANG Enterprise Limited is derived from unique and original design theories, great store of field experience and design capabilities for analog and digital circuits and magnetic components. PSTEK has the competitiveness in the power electronics system required a high-effi ciency and a high- capacity based on unique design ability. PSTEK has been developing and supplying power supply of the fl ash lamp and UV lamp for sintering/ 6 curing system. www.nikyang.com
Asia’s leading supplier of laboratory automation solutions Yi Xin Technology Nikyang Enterprise Limited providesadvanced laboratory equipment and innovative automated solutions. As the region’s sole distributor for a select group of highly respected European brands, we bring Asian customers state-of-the-art laboratory automation technology, backed up by full support through our extensive sales network. Our mission: to revolutionize Chinese scientifi c laboratories Our goal is to transform Chinese and other Asian labs, for both QC and R&D, from ineffi cient and low- 5 throughput manual processing to fully-automated high-throughput operation. With a more systematic http://www.nano-em.com/ and efficient methodology, they will enjoy higher productivity and achieve more standardized andconsistently accurate test results. Yi Xin Technology is a professional supplier for Micro-Nano Science, start business from 2006, our Integration brings you the optimum combination to meet your needs advanced technology support and complete sales and service system can ensure the customer’s Our modular approach combines the most appropriate products from different suppliers to create trust and satisfaction and solution’s advancement. Now we are the China agent of Microtech laser a customized automated solution for each customer. From the most up-to-the-minute laboratory lithography, Sonoplot precision picoliter fluid microarray microplotter, NanoCVD nanotubes and instruments and facilities to fl exible analysis and reporting software, we help you set up a complete Graphene instruments. robotic platform for end-to-end processes that is fl exible, versatile and upgradable. The SonoPlot® GIX Microplotter II is a precision picoliter fl uid dispensing system for the microarray Our full-service approach supports your continuing growth and polymer electronics markets with significant advantages over existing products in deposited We add values to our customers’ businesses and facilitates their success through our full range of feature size and type, regularity of volumes dispensed, and fl exibility for the user. services including Networking, Consultancy, Sales, Installation, Training and After-Sales Service. The core of the Microplotter is a dispenser that uses controlled ultrasonics to deposit fluid in a noncontact manner. This patented technology can produce picoliter droplets that form features on a surface as small as 5 μm wide. When combined with automatic surface height calibration, coeffi cients
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
Shanghai Ruidu Photoelectric Co.,Ltd. KunShan Hisense Electronic Co.,Ltd.
7 www.rd-mv.com 9 Shanghai Ruidu Photoelectric Technology Co.Ltd is founded in 2007 by a powerful team that consists www.kshisense.com of professors and experienced engineers. The company is located in USST National Science Park in Shanghai, and Our main business scope is to provide products and system integration in automation KSHISENSE has been committed to the R&D of printed electronic technology and the production field and inkjet printing field. Ruidu develops the inkjet printing market together with MicroFab in China. of related products. Centered on the production of full printed radio frequency identification (RFID) Meanwhile, Ruidu develops custom-made machine and inkjet systems,in the field of NanoTech, chips and labels, KSHISENSE develops and produces printed electronic materials, including nano Biomedical ,stent coating, drug-loaded sphere ,microdispensing , crystallization protein etc. silver conductive ink, conductive silver paste, as well as printed electronic equipment, such as printed electronic inkjet deposition system, which can be widely used in RFID, solar cells, semi-conductors, OLED display, etc; printed organic memory chips, printed antennas, printed EAS labels and printed Shenzhen Shining Automation Co. Ltd. RFID labels; and provides printed electronic technology solutions for such industries as touch screen, printed circuit board and solar cell. KSHISENSE is China’s first enterprise engaged in the R&D and production of printed electronic products, with world-leading technology.
National Innovation Alliance of Printed Electronics Industrial Technology 8 http://www.shining-automation.com/
Shenzhen Shining Automation Co. Ltd. is a professional manufacturer of precision coating machines 10 which are used in Li-ion batteries, Optical coating ,flexible printed circuits (FPC), Flat panel displays www.iape.org.cn (FDP), Solar cells, pharmaceutical and tape industries. Consulting experts both locally and overseas and partnering with many foreign companies in product National Innovation Alliance of Printed Electronics Industrial Technology (herein referred to as IAPE) development, we have strong technological capabilities. In addition, we import all key components was founded in Beijing, on 26 October 2011, by 21 institutions consisting Beijing Institute of Graphic from established suppliers abroad to ensure high product quality. This combination backs our promise Communication and certain othercolleges, companies and scientific institutions. IAPE is a national that all our products are in leading technological positions in the domestic market. technology innovation cooperation organization, aiming to improve innovation capability of printed Cooperating with EDI in slot die, we can provide customers with total solution of turn-key package. electronics technology. Its foundation marks the significant progress of national printed electronics Our mission: To provide our customers with innovative and dependable technology and share with industry in integrating industry technology and innovation resources, leading innovation elements to them a Shining future. companies and seizing the historic opportunity of breaking through the “low-end deadlock” dilemma. IAPE was formed based on thecompanies’ needsin their developments and the mutual interests of all IAPE members. IAPE integrates the printed electronics industry technology and innovation resources,
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
focuses on the printed electronics industry chain, andutilize market mechanism to pool the innovation Surface Treatment resources,so as to develop innovative mechanism that combines the industry, academic, research Photolithography and application which facilitates the cooperation between colleges, companies and scientific research Nanoimprinting institutions. IAPE is also dedicated to breaking through the bottleneck of printed electronics technology Laser Patterning and making improvements tothe national printed electronics industry. Encapsulation As of today, IAPE has 59 members including companies, colleges and scientific institutions.The Pick & place president of IAPE is Beijing Academy of Printing & Packaging Industrial Technology, and the secretariat and many more of IAPE is Beijing Institute of Graphic Communication.
Sigmatek Corporation Coatema Coating Machinery GmbH
14 Coatema Coating Machinery GmbH 15 Roseller Straße 4 http://www.sigmatekcorp.com/front/bin/home.phtml D-41539 Dormagen www.coatema.de Sigmatek is an integrated supplier of capital equipment, instrument and consumable material for front- end wafer fab, back-end IC packaging house, Surface Mount Technologies accounts, Solar Cell, Fuel Coatema Coating Machinery GmbH offers production equipment and R&D for coating, printing and Cell, LED Package and Graphics inkjet. laminating plants for Roll to Roll and Sheet to Sheet applications. Sigmatek has tens of years experience and is recognized as a proven distributor of several remarkable The second generation family business has over 40 years of experience in the markets of textile, foil principals, the sales and service reputation of Sigmatek is prevailed throughout the market in Taiwan and paper and offers pilot and production lines for these sectors. and China. The pilot lines sector, where Coatema is the market leader in innovative technologies like batteries, fuel cells and printed electronics, was developed 15 years ago. The focus on high tech markets, world class service support and one of the most versatile R&D center in the world for coating, printing and laminating enables Coatema to offer complete Lab-to-Fab technologies. In addition to the established sector of vertically integrated machine engineering Coatema is continuously active in German and European research projects and organizes an international coating symposium every year in Dormagen. As a global acting SME Coatema has a worldwide distribution network and serves all growth markets with their products. Coatema offers machinery for: Printing Coating Laminating
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International Conference on Flexible and Printed Electronics on Flexible and Printed Electronics 2014.10.21-24 China, Beijing, jianguo Hotel(Gongda Branch)
MEMO MEMO
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