| [Session Information - 58th SPSJ Symposium on Macromolecules] | ||||||
| Japanese | ||||||
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I. General Topics
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| A. POLYMER CHEMISTRY: SYNTHESIS AND REACTIONS | "Poster Presentation" Only | ||
| 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, Î-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 | You can choose "Oral Presentation" or "Poster 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 | "Poster Presentation" Only | ||
| 1) | Photofunction (Photonics, Optical disk, Photoresist and Patterning, PHB, Nonlinear@Optics, etc. ) | |
| 2) | Electricity, Electronics, Magnetism (Electronics, Magnetic Material, Ionic Conductor, Ferroelectric, Dielectric, Metallic Conductor, Semiconductor, Insulator, Wiring, Electronic Switch, Battery , etc. ) | |
| 3) | Separation, Recognition, Catalyst (Enantio-Seperation, Gas Separation, Moleculer Recognition, Macromolecular Complexes, etc. ) | |
| 4) | Heat-Resistant Polymers, Flame-Resistant Polymers | |
| 5) | High Strength Polymers, High Modulus Polymers | |
| 6) | Ultra-Environmental Properties (Ultralow Temperature, Ultrahigh Temperature, High-Pressure, High-Vacuum, etc. ) | |
| 7) | Liquid Crystal (Functionalization of Liquid Crystal) | |
| 8) | Gel (Functionalization of Gel) | |
| 9) | Polymer Surface and Thin Film (Functionalization of Surface and Thin Film of Polymers) | |
| 10) | Others | |
| D. BIOPOLYMERS AND BIORELATED POLYMERS | You can choose "Oral Presentation" or "Poster 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, etc. ) | |
| 6) | Bioengineering (Gene, Cell, Germ, etc.) | |
| 7) | Life Sciences (Artificial Blood, Antithrombogenicity, Drug Delivery System, Dental Material, Gene, etc. ) | |
| 8) | Others | |
| E. POLYMERS AND ENVIRONMENT | You can choose "Oral Presentation" or "Poster Presentation" | ||
| 1) | Environment-Conscious Polymer Materials (Biodegradability, Resources Saving Materials, Energy Saving Materials, Atoxic and Innocent Matetials, 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 | You can choose "Oral Presentation" or "Poster 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 m"Oral Presentation" onlyn
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| S1. Chiral polymers and chiral supramolecules | ||
| Tamaki Nakano |
| 1) | Design of chiral polymers | |
| 2) | Application of chiral polymers | |
| 3) | Design of chiral supramolecules | |
| 4) | Application of chiral supramolecules | |
| S2. Recent development of precise synthesis of functional conjugated polymers | ||
| Fumio Sanda |
| 1) | Precise synthesis of conjugated polymers, and control of the structures | |
| 2) | Novel catalysts, polymerizations, and conjugated polymers | |
| 3) | Properties including photo, electronic, and magnetic functions of precisely synthesized conjugated polymers | |
| 4) | Development of materials based on precisely synthesized conjugated polymers | |
| S3. Element-based hybrids | ||
| Yoshiyuki Sugahara |
| 1) | Preparation of main-group-element-based hybrids | |
| 2) | Preparation of transition-metal-element-based hybrids | |
| 3) | Preparation of element-based hybrids using inorganic building blocks | |
| 4) | Properties of element-based hybrids | |
| S4. Advance Functional Polymers Based on Supramolecular Programing | ||
| Kimihisa Yamamoto |
| 1) | Fabrication of Functional Surface Based on Supramolecular Programing | |
| 2) | Fabrication of Supra-structure/organization Based on Supramolecular Programing | |
| 3) | Biomaterials Based on Supramolecular Programing | |
| 4) | Hyper-functions of Materials with Supra-structure and Their Applications | |
| S5. Applications of Synchrotron Radiation and Neutron Beam to Soft Material Science | ||
| Masahiko Annaka |
| 1) | Stuructural Analysis and Dynamics I -Soft Matter | |
| 2) | Stuructural Analysis and Dynamics II -Soft Nano Interface | |
| 3) | Biomolecular Structure and Dynamics | |
| 4) | Instrumentation and Analysis Method | |
| S6. Computational Simulation For Material Innovation | ||
| Kazuo Teraishi |
| 1) | Polymer Property Prediction | |
| 2) | Polymer Synthesis Prediction | |
| 3) | Polymer Processing Prediction | |
| 4) | Polymer Structure Prediction | |
| S7.Merging of Chemistry and Physics for Soft Matters | ||
| Keji Tanaka, Hiroshi Morita |
| 1) | Design and construction of soft matters | |
| 2) | Experimental study on structure and physical properties for soft matters | |
| 3) | Simulation study on structure and physical properties for soft matters | |
| 4) | Function of soft matters | |
| S8. Polymer Characterization "Hierarchal Structures and Dynamics " | ||
| Toshikazu Miyoshi |
| 1) | Polymer Characterization for Hierarchal Structures | |
| 2) | Polymer Characterization for Hierarchal Dynamics | |
| 3) | Relations Between Hierarchal Structures and Dynamics | |
| 4) | Control of Hierarchal Structures and Properties | |
| S9. Sensing, transport and separation with high selectivity induced by biological materials | ||
| Koji Yamanaka |
| 1) | Structure and function of biological materials | |
| 2) | Bio-sensing | |
| 3) | Self-assembly and its applications | |
| 4) | Molecular recognition, affinity and their applications | |
| 5) | Highly selective membrane transport | |
| S10. Construction, Control and Analysis of Surfaces and Interfaces | ||
| Masashi Kunitake |
| 1) | Construction of surfaces and interfaces | |
| 2) | Analysis of surfaces and interfaces | |
| 3) | Correlation between interface structures and functions | |
| 4) | Interfaces in hybrid materials | |
| S11. GELS: from fundamentals to Applications | ||
| Sada Kazuki, Takao Aoyagi |
| 1) | Synthesis of GELS | |
| 2) | Physics of GELS | |
| 3) | Structure of GELS | |
| 4) | Functions and Application of GELS | |
| S12.Photonics and Microelectronics Materials and the Microfabrication Processes for Next Generation Devices | ||
| Akira Watanabe, Taku Hirayama |
| 1) | Materials and processes in lithography | |
| 2) | Materials and processes for flexible and printable electronics | |
| 3) | Nanofabrication by nanoimprint, self-organization, and other methods | |
| 4) | Fabrication of nanostructures and the novel functions | |
| S13. New trend in photonics polymer | ||
| Nobuhiro Kawatsuki |
| 1) | Nano-pico-photonics polymers | |
| 2) | Bio-photonics polymers | |
| 3) | Photonics polymers for optics and electronics | |
| 4) | Photonics polymers for mechanics | |
| S14. Advanced nanomaterials | ||
| Naotoshi Nakashima, Yasuro Niidome |
| 1) | Organic/inorganic/polymer/supramplecular nanocomposites | |
| 2) | Nanocarbon-based compositematerials | |
| 3) | Nanoparticles | |
| 4) | Materials for nanoelectronics | |
| 5) | Nanobiomaterials | |
| S15. Single Molecule Detection and Manipulation for Polymer Science | ||
| Kuniharu Ijiro, Satoru Kidoaki |
| 1) | Single Molecule Detection | |
| 2) | Single Molecule Manipulation (including Single Molecule Synthesis) | |
| 3) | Single Molecule and Molecular Organization (including Self-Organization and Bio-Molecules) | |
| 4) | Theory for Single Molecule Dynamics | |
| S16. New horizon in polysaccharide materials | ||
| Junichi Kadokawa, Takuya Kitaoka |
| 1) | Synthesis of new polysaccharides and polysaccharide-based polymeric materials | |
| 2) | Nano-ordered and hierarchically controlled structures of polysaccharide materials | |
| 3) | New physical properties and functions of polysaccharide materials | |
| 4) | New applications of polysaccharide materials | |
| S17. Frontiers and Advances of Polymeric Biomaterials | ||
| Masaru Tanaka, Takeshi Serizawa |
| 1) | Polymer Design and Synthesis | |
| 2) | Applications of DDS, Diagnosis, and Tissue Engineering | |
| 3) | Self-Organized and Self-Assembled Polymeric Biomaterials | |
| 4) | Structure and Dynamics of Polymer, and Biocompatibility | |
| 5) | Characterization of Biointerfaces (Interactions of material-protein-cell) | |
| S18.Synergistic biopolymer system | ||
| Naoki Tanaka, Kazunari Akiyoshi |
| 1) | Synergistic functions in bio-supramolecular system | |
| 2) | Control of synergistic functions by assembly system | |
| 3) | Synergistic functionalization of biopolymers | |
| 4) | Synergistic bio-interfaces | |
| S19. Bio-inspired nanotechnology | ||
| Shigeori Takenaka, Takahiro Sato |
| 1) | Application of nucleic acids and their related analogs in nanotechnology | |
| 2) | Application of proteins and their related analogs in nanotechnology | |
| 3) | Application of sugars or biomembrane in nanotechnology | |
| 4) | Prospect of the nanodevice construction by biopolymer | |
| S20. Key technologies for precise recycling of polymers | ||
| Haruo Nishida |
| 1) | Specific catalysts and conditions for precise recycling of polymeric materials | |
| 2) | Molecular and reaction designs for precise depolymerization and de-crosslinking of polymers | |
| 3) | Functional additives for stabilization and recycling of polymers | |
| 4) | Recycling into upgraded materials with high-performance and/or novel-functions | |
| 5) | Progresses in identification of materials and reaction analyses for recycling of polymers | |
| S21. Recent developments in biobased Polymers | ||
| Naoko Yoshie |
| 1) | Novel biobased polymers | |
| 2) | Novel method for fabrication of biobased polymers | |
| 3) | Novel functions in biobased polymers | |
| S22.Creation of smart and fine network polymers cross-linked chemically and physically | ||
| Toshikazu Takata,Hiroto Murakami |
| 1) | Design, Synthesis, and Reaction of Precision Network Polymer | |
| 2) | Structure, Function, and Property of Precision Network Polymer | |
| 3) | Precision design and synthesis of functionalized elastomers | |
| 4) | Structure and physical properties of functionalized elastomers | |
| S23. Polymers related to new batteries -solar cells and fuel cells- | ||
| Katsuhiko Fujita |
| 1) | Polymer Electrolyte Fuel Cell | |
| 2) | Polymers for improvement of fuel cells | |
| 3) | Organic thin film solar cells | |
| 4) | Dye sensitized solar cells | |
| 58th SPSJ Symposium on Macromolecules |