| [Session Information - 63rd SPSJ Symposium on Macromolecules] | ||||||
| Japanese | ||||||
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I. General Topics
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| A. POLYMER CHEMISTRY: SYNTHESIS AND REACTIONS | "Oral Presentation" or "Poster Presentation" or "English Oral Presentation" |
| 1) | Radical Polymerization (including Ring-Opening Radical Polymerization) | |
| 2) | Ionic Polymerization (Anionic Polymerization, Cationic Polymerization, Photo- and Radiation-Induced Ionic Polymerizations, Ring-Opening Ionic Polymerization, etc. ) | |
| 3) | Metal-Catalyzed Polymerization (Ziegler-Natta Polymerization, Metallocene-Catalyzed Polymerization, Cordination Polymerization, Metal-Catalyzed Ring-Opening Polymerization, Other Metal-Catalyzed Polymerization, etc. ) | |
| 4) | Polycondensation | |
| 5) | Polyaddition, Addition Condensation | |
| 6) | New Polymerizations and New Monomers (Polymerizations via Mechanisms not Included in the Preceding Classifications 1-5, New Catalysts, Novel Monomers, etc. ) | |
| 7) | Polymers of Designed Architectures (Block Polymers, Graft Polymers, Star Polymers, Hyperbranched Polymers, Dendrimers, Conjugated Polymers, etc. ) | |
| 8) | Noncovalent Polymers (Polymers and Supramolecular Architectures via Hydorogen-, Cordination, π-Electron-, and Related Bondings and Intermolecular Interactions, etc. ) | |
| 9) | Polymer Reactions (Reactions between Polymers and Small Molecules, Reactions between Polymers, Intramolecular Polymer Reactions, Polymer Modification, Crosslinking and Curing, Polymer Degradation, Polymer Stabilization, etc. ) | |
| 10) | New Polymerization Processes (including New Industrial Polymerization Processes, Reaction Engineering, Plant Design, Polymer Processing, etc. ) | |
| 11) | Others | |
| B. POLYMER PHYSICS: STRUCTURE AND PROPERTIES | "Poster Presentation" or "English Oral Presentation" |
| 1) | Analysis of Molecular Properties (Configuration; Conformation; Electronic Structure; Molecular Weight; Molecular Weight Distribution; Copolymer Composition, etc. ) | |
| 2a) | Polymer Solids (Structure and Properties of Crystalline and Amorphous Phases and Higher Order System; Phase Transition; Morphology; Crystallization; Molecular Motion, etc. ) | |
| 2b) | Polymer Solids (Mechanical Properties; Thermal Properties; Electric Properties; Optical Properties, etc. ) | |
| 2c) | Polymer Solids (Alloy; Blend; Composites, etc. ) | |
| 3a) | Polymer Solutions and Polymer Melts (Structure, Properties, and Molecular Motions; Polyelectrolytes, etc. ) | |
| 3b) | Rheology and Dynamics (Rheology; Molecular Dynamics; Multi Phases; Suspension; Emulsion; Fluid Mechanics; Processing, etc. ) | |
| 4) | Liquid Crystals (Liquid Crystalline Polymers; Thermotropic Liquid Crystals; Lyotropic Liquid Crystals, etc. ) | |
| 5) | Gel and Network Polymers | |
| 6) | Polymer Surface, Interface, and Thin Film (Structure and Properties of Surface, Interface, and Thin Film of Polymers; Nanorheology; Tribology; Fine Particles; Colloids, etc. ) | |
| 7) | Polymer Analysis | |
| 8) | Others | |
| C. FUNCTIONAL POLYMERS AND POLYMER FUNCTIONS | "Oral Presentation" or "Poster Presentation" or "English Oral Presentation" |
| 1) | Electricity, Electronics, Magnetism (Dielectric, Piezoelectric, Pyroelectric, Semiconductor, Conductive Polymer, Magnetic Material, Polymers for Electronics) | |
| 2) | Information, Recording, Display (Recording Media, Memory, Document Viewer, Materials for Display, Organic EL, etc) | |
| 3) | Optical and Photochemical Functions (Photonics, Non-linear Optics, Optical Fiber, Waveguide, Photoresist, Micro-manufacturing Techology, etc.) | |
| 4) | Functional Polymers for Energy (Photovoltaic Device, Fuel Cell, Rechargeable Battery, Capacitor, etc.) | |
| 5) | Separation, Recognition, Catalyst (Membrane for Gas and Liquid Separation, Permeation, Sepation Column, Moleculer Recognition, Polymer Catalyst, etc.) | |
| 6) | High Performance Polymers (High Strength, High Modulus, Mechanical Properties, Heat Resistant, Non-Flammable Polymers, Ultra-environmental Properties, etc.) | |
| 7) | Functional Soft Materials (Liquid Crystal, Gel, Elastomer, Stimuli-responsive Materials etc.) | |
| 8) | Nano-materials, Supramolecules (Thinfilm, Nanoparticle, Nanofiber, Nanorod, Nano Fabrication, etc.) | |
| 9) | Composite, Hybrid Materials (Organic-Inorganic Hybrid, Nanocomposite, Fiber/Particle Reinforced Composites, etc.) | |
| 10) | Polymer Surface and Interface (Functional Coating, Adhesive, Friction and Wear, Water-repellent Materials etc.) | |
| 11) | Others | |
| D. BIOPOLYMERS AND BIORELATED POLYMERS | "Poster Presentation" or "English Oral Presentation" |
| 1) | Polypeptides, Proteins, Enzymes | |
| 2) | Nucleic Acids and Related Compounds | |
| 3) | Polysaccharides and Glycopolymers | |
| 4) | Biomembrane and Artificial Membrane | |
| 5) | Biomimetics (Bioinspired Polymers, Molecular Recognition, Sensing System, Biomimicry etc. ) | |
| 6) | Biomaterials (Biomedical Materials, Anti-thrombogenic Materials, Drug Delivery, Gene and Oligonucleotides, Artificial Organ, Regenerative Medicine, etc.) | |
| 7) | Bioengineering (Gene, Cell, Germ, etc.) | |
| 8) | Others | |
| E. POLYMERS AND ENVIRONMENT | "Poster Presentation" or "English Oral Presentation" |
| 1) | Environment-Conscious Polymer Materials (Biodegradability, Materials for Resource and Energy Saving etc.) | |
| 2) | Environment-Conscious Polymer Process (Resource Saving Syntheses, Energy Saving Syntheses, Saftey Waste Treatments and Incineration, etc. ) | |
| 3) | Recycling (Polymer Recycling Process, Chemical Recycling, Material Recycling, etc. ) | |
| 4) | Others | |
| F. POLYMER INDUSTRY AND TECHNOLOGY: PROCESSES AND PRODUCTS | "Poster Presentation" or "English Oral Presentation" |
| 1) | Structural Materials (Polymer Materials for Automotive Vehicles, Aircrafts, Vessels, Office Automation Appliances, Electric Appliances, Electric Machinery, Civil Engineering and Building, etc. ) | |
| 2) | Daily Life Products (Foods, Cosmetics, Film Products, Sheet Products, Coatings, Adhesives, Fiber Materials, Papers, Printing, Sanitary Materials, Lapping Materials, etc. ) | |
| 3) | Reforming (Reinforcing Agent, Stabilizer, Flame Retardants, Surface Modification, Foaming, etc. ) | |
| 4) | Mold Processing | |
| 5) | Multimedia (Polymer Materials for Display, Battery, Recording Device, Communication Device, LSI, etc. ) | |
| 6) | Others | |
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II. Selected Topics ["Oral Presentation" only]
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| S1. Polymer Chemistry Based on Organocatalyst | ||
| Naoki Haraguchi |
| 1) | Polymer synthesis using organocatalyst | |
| 2) | Supramolecular chemistry based on organocatalyst | |
| 3) | Synthesis and application of polymer-supported organocatalyst | |
| S2. Structure Construction of Fusion Materials with New Functions Through Molecular Control | ||
| Chikara Ohtsuki,Yutaka Takaguchi |
| 1) | Technology of molecular control for fusion materials | |
| 2) | Construction process of fusion materials | |
| 3) | Fusion materials for creation of new functions | |
| S3. Preparation and Functions of Polymeric Materials Based on Element-Blocks | ||
| Kimihiro Matsukawa, Yoshiro Kaneko |
| 1) | Designs of novel element-blocks for polymeric materials | |
| 2) | Precise and efficient synthesis of polymeric materials based on element-blocks | |
| 3) | Interfacial and higher-ordered structural control of polymeric materials based on element-blocks | |
| 4) | Physical properties and functions of polymeric materials based on element-blocks | |
| S4. Polymers and Supramolecules Based on Accumulated π-Electron Systems | ||
| Tamaki Nakano |
| 1) | Design of polymers having accumulated π-electron systems | |
| 2) | Properties of polymers having accumulated π-electron systems | |
| 3) | Design of suplamolecules having accumulated π-electron systems | |
| 4) | Properties of suplamolecules having accumulated π-electron systems | |
| S5. Novel Development of Sustainable Polymers | ||
| Takeshi Serizawa |
| 1) | Resource of sustainable polymers | |
| 2) | Design of sustainable polymers | |
| 3) | Process for sustainable polymers | |
| 4) | Analysis of sustainable polymers | |
| S6.The Science of Polyurethanes | ||
| Ken Kojio |
| 1) | Novel synthetic method | |
| 2) | Hybrid polyurethane | |
| 3) | Earth friendly polyurethane(Biomass, dispersion and etc) | |
| 4) | Structure optimization of each segment for high-performance and functionality (Structure-properties relationship) | |
| S7. Interplay Phenomena in Structure and Dynamics of Polymers | ||
| Yuichi Masubuchi |
| 1) | Interplay phenomena observed in static scattering experiments | |
| 2) | Interplay phenomena observed in spectroscopies | |
| 3) | Interplay phenomena and visualization of hierarchical structures | |
| 4) | Interplay phenomena and hierarchical fluctuations in quantum beam experiments | |
| 5) | Computational methods for interplay phenomena | |
| S8. Understanding of Polymer Basic Properties for Development of Polymer Materials | ||
| Katsuhiro Inomata, Sumio Shibahara |
| 1) | Progress in measurement technology of polymer basic properties | |
| 2) | Structural characteristics of polymers and their properties and functions | |
| 3) | Dynamics of polymers and their properties and functions | |
| 4) | Relationships between basic properties of polymeric materials and their functions | |
| S9.Forefront in Refined Analyses of Polymeric Materials in Terms of Polymer Chains | ||
| Susumu Fujiwara |
| 1) | Simulational approach | |
| 2) | Experimental approach via structural analysis | |
| 3) | Experimental approach via physical property analysis | |
| 4) | Unified analytical approach | |
| S10. Structural and Dynamics Characterization of Polymer Materials Toward Emergent Functionalities | ||
| Tomohiro Hirano, Hikaru Momose |
| 1) | Accurate characterization of polymer structures | |
| 2) | Hierarchical characterization of polymer materials | |
| 3) | Dynamics characterization of polymer materials | |
| 4) | Dynamics characterization of hierarchical materials | |
| S11. Recent Development of Polymer Surface Modification and Advanced Analysis | ||
| Naoki Man, Kiminori Uchida |
| 1) | Polymer surface modification | |
| 2) | Advanced analysis of polymer surface and interface | |
| 3) | Manufacturing based on the surface and interface phenomenon | |
| S12. Hierarchical Design and Innovation Around Gels | ||
| Hidemitsu Furukawa, Takashi Miyata |
| 1) | Design and Innovation in Fine Synthesis of Gels | |
| 2) | Design and Innovation in Controlling Structure of Gels | |
| 3) | Design and Innovation in Pioneering Properties of Gels | |
| 4) | Design and Innovation in Developing Functions of Gels | |
| S13. Electron- and ion-Transport Polymers and Their Applications | ||
| Masahiro Rikukawa |
| 1) | Electron-transport polymers and their applications | |
| 2) | Ion-transport polymers and their applications | |
| 3) | Development of mixed transport polymers | |
| S14. Self-Organized/Assembled Materials with Dynamic Motion: Design, Function, and Application of Materials with Dynamic Properties/Responses | ||
| Akihiro Kishimura, Shiki Yagai |
| 1) | Analysis of motion in self-organized/assembled materials: Analytical method, mechanistic investigation, theoretical calculation, etc | |
| 2) | Design and construction of self-organized/assembled materials with distinct motion | |
| 3) | Control of dynamic motion in self-organized/assembled materials: utilization of external stimuli | |
| 4) | Application/utilization of dynamic self-organized/assembled materials: Novel functions, applications, and devices | |
| S15. Collaboration of Ionic Liquids and Polymers for New Processes and Advanced Materials | ||
| Masayoshi Watanabe |
| 1) | Advantages of ionic liquids as solvent for (bio)polymers | |
| 2) | Bio-refinery processes using ionic liquids | |
| 3) | Functionalization of polymer gels containing ionic liquids (ion gels) | |
| 4) | Polymer gels containing ionic liquids (ion gels) as intelligent materials | |
| S16. Metal Complexes, Clusters, and Surfaces to Control the Polymer Functions | ||
| Masayoshi Higuchi |
| 1) | Macromolecules / supramolecules with metal complexes | |
| 2) | Macromolecules / supramolecules with metal clusters | |
| 3) | Macromolecules / supramolecules on a metal surface | |
| S17. Structures and Emergent Functions of Nano- and Micro-Sized Particles | ||
| Makoto Takafuji, Tatsuo Taniguchi |
| 1) | Synthesis and structure control of nano- and micro-sized particles | |
| 2) | Functionalization of nano- and micro-sized particles | |
| 3) | Hybridization of nano- and micro-sized particles | |
| 4) | Properties of nano- and micro-sized particles | |
| S18. Biomimetic New Functional Materials and Next-Generation Fabrication Techniques Based on Biomimetics | ||
| Olaf Karthaus,Yoshihiro Uozu |
| 1) | Principles of Biomimetics (Self-Assembly/-Organization Systems, Bottom-Up and Molecular Recognition) | |
| 2) | Biomimetic Soft Materials (Organic/Inorganic Hybrid Materials, Gel and Biopolymer) | |
| 3) | Bio-Inspired Surfaces (Tribology, Fluidics, Anti-Corrosion, Adhesion, Superhydrophobic/ Superhydrophilic Surfaces, Wettability and Liquid/Cell Manipulation) | |
| 4) | Biomimetic Engineering (Sensor, Mechanics, Electronics and Optics) | |
| 5) | Fabrication Techniques based on Biomimetics | |
| S19. New Materials and Processes Created by Combining Nano, Bio and Polymer Chemistry | ||
| Kuniharu Ijiro |
| 1) | Control of the structural formation of biopolymers | |
| 2) | Novel materials and processes by using self-assembly | |
| 3) | Nano and biomaterials and those advanced processes | |
| 4) | Hierarchical materials and processes | |
| S20. Hybrid Biomaterials | ||
| Atsushi Harada, Jun Kobayashi |
| 1) | Material hybrid type biomaterials | |
| 2) | Technology hybrid type biomaterials | |
| 3) | Multidisciplinary hybrid biomaterials | |
| S21. Frontiers of Biomass Polymer Generating Technology | ||
| Hideki Abe |
| 1) | Molecular design of novel biomass polymers | |
| 2) | Material design of biomass polymers with high performance and specific function | |
| 3) | Estimation of eco-efficiency of biomass polymer materials | |
| S22.Green Chemistry of Polymeric Materials Relating to New Energies Supply and Renewable Resources Application | ||
| Haruo Nishida |
| 1) | Green chemistry in smart community | |
| 2) | Recycling of polymeric materials relating to new energies supply | |
| 3) | Recycling of polymeric materials used for next-generation vehicles | |
| 4) | Application of renewable resources to green-products | |
| S23. Water Processing Technology and Polymer | ||
| Shigeru Yao |
| 1) | Basic technologies of interface, translation, and membrane forming | |
| 2) | Clean water processing and polymer | |
| 3) | Effluent and sewage processing and polymer | |
| 4) | Sludge processing and polymer | |
| 5) | Other researches on water processing technology and polymer | |
| S24. Design and Property Evaluation of Networked Polymers and Their Development to Novel Functional Materials | ||
| Kozo Matsumoto, Hironao Fukuoka |
| 1) | Monomer synthesis and polymerization for formation of networked polymers | |
| 2) | Design of crosslinkers and crosslinking reactions for formation of networked polymers | |
| 3) | Analysis of structures and functions of networked polymers | |
| 4) | Degradation and recycle of networked polymers | |
| S25. Creation of Novel Functionalities by Highly-Controlled Nano-Structured Polymers | ||
| Hiroshi Yoshida |
| 1) | Design and synthesis of nano-structured polymers for advanced functionality | |
| 2) | Directed and programmed self-assembly for artificial nano-structure control | |
| 3) | Innovation and improvement of optical, electronic and bio functions by nano-structures | |
| 4) | Solutions for energy and environmental issues by nano-structured polymers | |
| 63rd SPSJ Symposium on Macromolecules |