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Table of contents −293− Synthesiology - English edition Vol.2 No.4 (2010) Research papersDevelopment 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-From basic research on firefly bioluminescence to Product Realization Research -Production of a multi-gene expression kit based on bioluminescent proteins-Development of clay-based-film -A Full Research scenario from a viewpoint of encounter-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-Development and applications of photocatalytic technology-Industrialization of sustainable eco-technology-Is an angular standard necessary for rotary encoders?-Development of a rotary encoder that enables visualization of angle deviation-ArticleMethodology and a discipline for synthetic research -What is Synthesiology?-- - - I. Honma - - - Y. Ohmiya and Y. Nakajima- - - T. Ebina- - - T. Komai, Y. Kawabe, J. Hara, Y. Sakamoto and H. Sugita- - - H. Taoda- - - T. Watanabe- - - H. NakashimaResearch papersDevelopment of regenerative medical technology working toward practical application-Construction of human cell processing system in view of safety for the purpose of clinical application-Development of highly-active hydrodesulfurization catalyst for sulfur-free diesel production-Full research from in-house laboratory catalyst to commercial catalyst-Development of massive synthesis method of organic nanotube toward practical use ― Integration of molecular design, molecular synthesis and safety assessment for materials having market competitiveness-Development of flexible-printable device processing technology-For achievement of prosumer electronics-A new density standard replaced from water-Using silicon single-crystals as the top of traceability in density measurement-A rationalization guideline for the utilization of energy and resources considering total manufacturing processes-An exergy analysis of aluminum casting processes-ArticleLaunch of AIST journal Synthesiology -Discussion with Japanese researchers at the University of Illinois at Urbana-Champaign-- - - H. Ohgushi- - - Y. Yoshimura and M. Toba- - - M. Asakawa, M. Aoyagi, N. Kameta, M. Kogiso, M. Masuda, H. Minamikawa and T. Shimizu- - - T. Kamata, M. Yoshida, T. Kodzasa, S. Uemura, S. Hoshino and N. Takada- - - K. Fujii- - - H. Kita, H. Hyuga and N. Kondo - - - H. Ohsaki and Y. Sato155-160(1-6) 161-168(7-14)169-176(15-22)177-186(23-32)187-198(33-44)199-208(45-54)209-215(55-61)221-232(1-12)233-241(13-21)242-250(22-30)251-262(31-42)263-272(43-52)273-281(53-61)282-290(62-70) Vol.1 No.4 Vol.1 No.3

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