Techniques for enhancing conductivity and the use of additives in conductive polymers and their applications.
S50122
New insights are beginning to be gained regarding the crystalline structure and high conductivity of conductive polymers.
【Venue】 Tokyo Chuo Ward Industrial Hall 4F, Meeting Room 4【Tokyo, Chuo Ward】 【Date and Time】January 30, 2015 (Friday) 13:45-16:30 【Speakers】 Part 1: Kobayashi Engineering Office, Director, Ph.D. in Engineering, Mr. Yukio Kobayashi (*Former Showa Denko) Part 2: Japan Aviation Electronics Industry, Inc., Product Development Center, Chief, Mr. Ken Onishi
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basic information
**Lecture 1: Summary of the Presentation** Conductive polymers, particularly PEDOT:PSS, are promising materials for various applications, but there is a demand for even higher electrical conductivity. While PEDOT:PSS can achieve high conductivity of 1,000 S/cm through treatment with high-boiling organic polar solvents, recent efforts have focused on further enhancing conductivity through the addition of various proton acids. Additionally, vapor-phase polymerization of EDOT has reported conductivity exceeding 8,000 S/cm. This seminar will provide a clear and detailed explanation of the current status and mechanisms of high conductivity achieved through solvent and compound additions. **Lecture 2: Summary of the Presentation** PEDOT:PSS contains a large amount of PSS, which is a polymer electrolyte modified with ions. Therefore, it is known that the dispersion state of these ions significantly affects the conductive properties of PEDOT:PSS. This presentation will focus on the orientation of PSS and the control of its conductive properties through additives that induce interactions with PSS, highlighting improvements in the conductive characteristics of PEDOT:PSS.
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46,440 yen (including tax and text costs) for 2 people from 1 company.
Price range
P2
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P2
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Part 1: Mechanisms of Conductive Polymers and Fundamental Techniques for Enhancing Conductivity through Solvent and Compound Additives [13:45-15:00] [Lecture Program] 1. Conductive Mechanisms of Conductive Polymers 1-2 Factors Affecting Mobility (Crystallinity, Molecular Weight, Intermolecular Distance, etc.) 2. Techniques and Mechanisms for Enhancing Conductivity of PEDOT:PSS 2-1 High Boiling Point Polar Solvent Vapor Treatment System 2-2 Proton Acid Addition System 2-3 Fluorinated Compound Addition System 3. Synthesis of Highly Conductive PEDOT via Vapor Phase Polymerization 4. Molecular Design of Conductive Polymers for Enhanced Conductivity 5. Novel Application Areas [Q&A and Business Card Exchange] Part 2: Effects of Additives on the Conductive Properties of PEDOT/PSS [15:15-16:30] [Program] 1. Control of Conductive Properties of PEDOT/PSS by Additives 2. Control of Conductive Properties of PEDOT/PSS by Additives with Ions 2-1 Control of Orientation and Conductive Properties of PSS 2-2 Control of Conductive Properties of PEDOT/PSS by Adding Electrolyte Salts and Ionic Liquids 3. Control of Conductive Properties of PEDOT/PSS by Substrate Modification with Ions [Q&A and Business Card Exchange]
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