Plant-derived polymers can surpass petroleum-derived resins!
○Publication Date: December 22, 2011 ○Format: A4 size hardcover, 305 pages ○Price: 60,000 yen (excluding tax) → STbook member price: 56,952 yen (excluding tax) ○Authors: Ryota Hirakawa Teijin Ltd. / Takanori Miyoshi Teijin Ltd. / Jun Mitadera Mitsubishi Gas Chemical Co., Inc. / Satoshi Yamazaki Mitsui Chemicals, Inc. / Kazuhiro Kuroki Showa Denko K.K. / Kai Kan Hokuriku Advanced Institute of Science and Technology (the character "Kan" is written with the radical for "gate") / Tatsuwo Kaneko Hokuriku Advanced Institute of Science and Technology / Yoshiyuki Go Sumitomo Bakelite Co., Ltd. / Hideaki Yukawa (Foundation) Global Environment Industry Technology Research Institute / Akihiro Okubo GunEi Chemical Industry Co., Ltd. / Masanori Ichi NEC Corporation / Shuichi Matsumura Keio University / Anna Ochi Hokkaido University / Takeshi Watanabe Hokkaido University / Seiichi Taguchi Hokkaido University / Nobuyuki Mase Shizuoka University / Hideyuki Tamagawa Kirin Holdings Company, Limited / Shigenori Ikushima Kirin Holdings Company, Limited / Koichi Goda Yamaguchi University / Asami Nakai Kyoto Institute of Technology / Minoru Kiguchi (Germany) Forest Research Institute / Jun Miyaho Arkema Inc. / and 28 others.
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Chapter 1: Development of New Plant-Derived Polymers, Materials, and Processes Section 1: Development of Plant-Derived Vanillic Acid Polyester Section 2: Development of Plant-Derived High-Heat-Resistant Polyamide (LEXTER) Section 3: Development of Plant-Derived Polyurethane Section 4: Development of Plant-Derived Unsaturated Polyester Resin Section 5: Development of High-Performance, High-Function Plant Molecular-Derived Plastics Section 6: New Trends in Biorefinery - Challenge to Green Phenol Production - Section 7: Development of Phenolic Resin Derivatives Using Glycosylation Technology Section 8: Development of New Bioplastics Utilizing Cellulose and Cardanol Section 9: Synthesis of Novel Bio-Based Elastomers via Enzymatic Catalytic Polymerization Section 10: One-Step Polymerization of Lactic Acid Using Microorganisms Section 11: Metal and Organic Solvent-Free Synthesis of Polylactic Acid: Utilizing Organic Molecular Catalysts and Supercritical Carbon Dioxide Section 12: Fermentation Production of Lactic Acid Using Torula Yeast Candida utilis Chapter 2: Techniques for Improving Physical Properties and Functions Chapter 3: Application and Required Properties of Plant-Derived Materials by Users Chapter 4: Mechanical Property Evaluation of Biomass Plastics and Composites Chapter 5: Resource Recycling of Polylactic Acid from Polymer Alloys
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Main unit 60,000 yen + tax → STbook member price: 56,952 yen + tax
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Manufacturers of plants, materials, etc.
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S&T Publishing publishes technical books aimed at researchers and engineers.