What are the challenges of extending the lifespan, increasing the size, and enhancing the capacity of lithium-ion capacitors? What are the countermeasures? High energy density of hybrid capacitors!
Lecturers Part 1: Professor Katsuhiko Naoi, Ph.D. in Engineering, Graduate School of Tokyo University of Agriculture and Technology Part 2: Yoshiyasu Aoki, Executive Director, Advanced Capacitor Technologies Co., Ltd. Part 3: Takeshi Morimoto, Ph.D. in Science, Representative of Morimoto Engineering Office (Former Asahi Glass) Target Audience: Researchers and personnel interested in lithium-ion capacitors and hybrid capacitors Venue: Tekuno Kawasaki 4F Exhibition Room [Kanagawa, Kawasaki] 10-minute walk from Tokyu Mizonokuchi Station East Exit and JR Musashi-Mizonokuchi Station Date and Time: August 26, 2011 (Friday) 11:00 AM - 4:00 PM Capacity: 20 people *Please apply early as there may be a rush of applications. Participation Fee: [Early Bird Discount Price] 51,450 yen (tax included, includes lunch and text costs) for up to 2 people from one company *Limited to Tech-Zone members who apply by August 12. Membership registration is free. *After August 12, the [Regular Price] will be 54,600 yen (tax included, includes lunch and text costs) for up to 2 people from one company. ◆ If 3 people from the same organization apply, the fee will be 69,300 yen.
Inquire About This Product
basic information
Lecture 3: Electrochemical capacitors, which enable rapid charge and discharge and have high reliability, are collectively referred to as secondary power sources and are classified into electric double-layer capacitors, redox capacitors, and hybrid capacitors. Hybrid capacitors use a high surface area activated carbon electrode that accumulates charge through a non-Faradaic reaction without oxidation or reduction on one of the electrodes, while the other electrode accumulates charge through a Faradaic reaction involving oxidation or reduction using oxides or carbon materials. Among hybrid capacitors, a system using activated carbon for the positive electrode and carbon materials or oxides that can dope and de-dope lithium ions, along with an organic electrolyte containing lithium salts for the negative electrode, has been technically established and is referred to as lithium-ion capacitors. This lecture will discuss the existing technologies related to lithium-ion capacitors and consider the potential of new materials that enable further market expansion through increased energy density and power density.
Price range
P2
Delivery Time
P2
Applications/Examples of results
Part 1: High Power and High Energy Technologies in Nano Hybrid Capacitors 5. New Capacitor Materials 6. Approaches to Improve Capacitor Energy Density 7. Directions for Next-Generation Capacitors 8. New Developments with Threefold Energy Density 9. Characteristics of Lithium-Ion Capacitors 10. Nanostructure Design of Lithium Titanate 11. Features of Nano Hybrid Capacitors 12. Lithium Titanate Capacitors Using Carbon Nanotubes 13. Third-Generation Capacitors with Over Seven Times Energy Density 14. Ultra High Energy Density Capacitors and High Power Batteries Part 2: Development Trends of Lithium-Ion Capacitors and Key Points for Pre-Doping, Longevity, and Safety Improvement 1. Principles and Characteristics of Lithium-Ion Capacitors 2. Lithium Pre-Doping Technology 3. Characteristics of Lithium-Ion Capacitors 4. Key Points for Longevity of Lithium-Ion Capacitors 5. Key Points for Improving Reliability and Safety of Lithium-Ion Capacitors 6. Development Trends of Lithium-Ion Capacitors 7. Application Developments of Lithium-Ion Capacitors 8. Future Developments Part 3: Improvement of Characteristics of Lithium-Ion Capacitors
Company information
Our company has developed its business from "seminar planning" to various forms such as "lecturer dispatch," "publishing planning," "technical consultant dispatch," "trend research," "business matching," and "business development consulting," in order to support clients in a wide range of fields including chemistry, electronics, automotive, energy, medical devices, food, and building materials. By doing so, we have advanced our company and opened up new markets. AndTech promises to continue listening to our clients' voices, entering the business areas and markets they desire, and to remain a company that is loved by our clients, as we share their challenges, think together, and forge new paths.