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Research paper : Development of flexible-printable device processing technology (T. Kamata et al.)−184 Synthesiology - English edition Vol.1 No.3 (2009) 6 ConclusionWe were able to engage in research and produce results acceptable to the society, because we formed research teams where the members worked closely and each R&D could mutually supplement each other. In this point, there is definite advantage of organized research. On the other hand, steady academic activities are at the basis of multi-faceted technological development. Without work in Type 1 Basic Research and academic societies, there might have been less interest in our technology.In the future, we plan to work as team on the technological development to create new industry, while balancing Type 1 and Type 2 Basic Researches and by presenting scenario for development of industrial science.NotePart of this research was conducted with support of NEDO “Development of High-Efficiency Organic Device” and NEDO Industrial Technology Research and Development Project “Development of Three-Dimensional Nanoporous Film Sensor Device Technology.”(30)−[1][2][3][4][5][6][7]T. Kodzasa, S. Uemura, K. Suemori, M. Yoshida, S. Hoshino and T. Kamata: Development of SiO2 dielectric layer formed by low-temperature solution processing, Proc. 13th Inter. Display Workshops, (2) 881 (2006).M. Yoshida, S. Uemura, S. Hoshino, N. Takada, T. Kodzasa and T. Kamata: Electrode effects of organic thin-film transistor with top and bottom contact configuration, Jpn. J. Appl. Phys., 44(6), 3715 (2005).M. Kawasaki, S. Imazeki, S. Hirota, T. Arai, T. Shiba, M. Ando, Y. Natsume, T. Minakata, S. Uemura and T. Kamata: High mobility solution-processed organic thin-film transistor array for active-matrix color liquid crystal displays, J. Soc. Information Display, 16, 161 (2007).M. Kawasaki, S. Imazeki, M. Ando, Y. Sekiguti, S. Hirota, S. Uemura and T. Kamata: High-resolution full-color LCD driven by OTFTs using novel passivation film, IEEE Trans. Elect. Dev., 55, 435 (2006).T. Kamata: Yuki TFT gijutsu niyoru disupurei no kakushin (Innovation in display by organic TFT technology) Monthly Display, 11, 1 (2005) (in Japanese).T. Kamata: Yuki erekutoronikusu o insatsu de tsukuru (Creating organic electronics with printing (1)), Nikkei Electronics, 925, 131 (2006) (in Japanese).S. Hoshino, M. Yoshida and T. Kamata: Organic semiconductor-based flexible thin-film water vapor sensors for real-time monitoring of plant transpiration, Sensor Letters, 6, (2008) (in press).Received original manuscript May 22, 2008Revisions received September 3, 2008Accepted September 3, 2008ReferencesAuthorsToshihide KamataCompleted doctorate program at Graduate School of Science, Kyoto University in March 1990. Joined the National Chemical Laboratory for Industry, Agency of Industrial Science and Technology (current AIST) in April 1992. Has worked on development of optical electronic device using organic material. Project leader of NEDO “Development of High-Efficiency Organic Device.” Winner of Gold Medal, 11th Tokyo Techno Forum 21 in 2005. Also won Achievement Award, 38th Ichimura Prize in 2006. For this paper, worked on development of display and creation overall concept and strategy.Manabu YoshidaCompleted doctorate program at Quality Material Sciences, Graduate School of Science and Technology, Chiba University in March 1999. Joined the National Institute of Advanced Industrial Science and Technology in April 2001. Specialized in development of new electronic device using organic material, and has worked on device and process technologies for Phase II and III. Won Achievement Award, 38th Ichimura Prize in 2006. For this paper, worked on development of triaxial distributed pressure annealing method and top & bottom contact transistor.Takehito KodzasaCompleted master’s program at Graduate School of Science, Osaka University in March 1993. Joined the National Institute of Materials and Chemical Research, Agency of Industrial Science and Technology (current AIST) in April 1993. Has worked on development of fabrication technology of optical and electronic devices using organic-inorganic hybrid material. Won Achievement Award, 38th Ichimura Prize in 2006. In this paper, worked on development of process technology for Phase I and contributed to development of multiple-source photooxidation method.Sei UemuraCompleted doctorate program at Quality Material Sciences, Graduate School of Science and Technology, Chiba University in September 2001. After NEDO Fellowship, joined the National Institute of Advanced Industrial Science and Technology in April 2003. Has worked on device using biomaterial and soft materials. Won “Incentive for Excellent Presentation Award” of the Japan Society of Applied Physics in 2006. Worked on development of material and process developments for Phases I and II. In this paper, worked on development of low-temperature manufacture process.Satoshi HoshinoCompleted master’s program at Electronic Science, Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology in March 1993. After working as researcher of Basic Research Laboratory, NTT Corporation and NEDO Fellow, joined the National Institute of Advanced Industrial Science and Technology in April 2003. Obtained doctorate (engineering) from Tokyo Institute of Technology in 2001. Has worked on R&D for light-emitting device, sensor element, and networking these devices. In this paper, developed 3-dimensional nanoporous device as device technology for Phases II and III, and worked on basic scientific analysis for device for Phase I.Noriyuki TakadaCompleted doctorate at Interdisciplinary Graduate School of

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