Vol.1 No.4 2008

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−319 AbstractsSynthesiology Vo.1 No.4(2008)Development of high power and high capacity lithium secondary battery based on the advanced nanotechnology - The convergence innovation strategy employing the inter-disciplinary research and inter-organization straightforward technology transfer -Itaru HonmaEnergy Technology Research Institute, AISTUmezono 1-1-1, Tsukuba 305-8568, JapanThe development of high power and high capacity lithium secondary battery has been executed in a new strategic innovation scheme. This paper reports the significance of adopting the idea of interdisciplinary research to straightforward technology transfer from university, through AIST and battery company down to automobile company. A joint project of these organizations covering the upper stream science (at a university) and the down stream battery products (at a company) has been found a good scheme for rapid R&D when the university or AIST has innovative seeds. AIST has superiority in producing new technological seeds because of the interdisciplinary research between energy and nanotechnology as well as a wide spectrum of research fields covered by the institute. In this paper, an application of nanocrystalline electrode materials to high power battery is reported where the technology was successfully transferred to the commercial development of superior battery products.From basic research on firefly bioluminescence to Product Realization Research- Production of a multi-gene expression kit based on bioluminescent proteins -Yoshihiro Ohmiya and Yoshihiro NakajimaResearch Institute for Cell Engineering, AISTMidorigaoka 1-8-31, Ikeda 563-8577, JapanIn the postgenomic era, biological network analysis has become essential for elucidating animal physiology. We have developed a revolutionary tricolor reporter in vitro assay system that can be utilized for detailed analysis of a biological network. Bioluminescence has the potential for visualizing the dynamics of living systems. To accomplish our vision, we are realizing new technologies via Type 1 Basic Research.Development of clay-based-film- A Full Research scenario from a viewpoint of encounter -Takeo EbinaResearch Center for Compact Chemical Process, AISTNigatake 4-2-1, Miyaginoku, Sendai 983-8551, JapanAn example of Full Research in the development of clay-based-film is introduced. Clay is eco-friendly, and it exists abundantly in Japan. Clay-based-films can be used as heat resistant gas barrier materials that in turn contribute to the realization of a sustainable industry. Details of the technical development, public information, intellectual property, and technology transfer occurring during the process from the initial invention to practical application are discussed. At the same time、 the interactions of people and research groups related to the development process are analyzed. In addition, the effectiveness of a consortium is discussed in the context of an innovation model based on development integration.Development of a risk assessment system for soil contamination and the application to the social system- Processes in Synthesiology for practicing an advanced environmental risk management -Takeshi Komai, Yoshishige Kawabe, Junko Hara, Yasuhide Sakamoto and Hajime SugitaResearch Institute for Geo-resources and Environment, AISTOnogawa 16-1, Tsukuba 305-8569, JapanIn developing risk assessment technology for soil contamination, it is essential to carry out a wide range of fundamental research and to synthesize the results into a single system. We have carried out an (73)−Abstract of Research Papers

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