Introduction to Sol-Gel Methodology: Fundamentals, Material Selection, Synthesis Methods, and Applications Development
S10631
★Bulk body, membrane, fiber, coating film, fine particles... ★Master the basics of the sol-gel method and its latest applications in one day.
Lecturer Professor Atsunori Matsuda, Department of Electrical and Electronic Engineering, Toyohashi University of Technology Target Audience: Engineers and technical management personnel interested in the sol-gel method Venue: Osaka City Central Hall, Room 5 [Osaka, Nagahoribashi] Date and Time: June 17, 2011 (Friday) 11:00 AM - 4:00 PM Capacity: 20 people *Please apply early as there may be a rush of applications. Participation Fee: 49,350 yen (including tax, lunch, and text costs) for up to 2 people from one company *New members who apply for the first time by June 3 will receive an early bird discount price of 44,100 yen ◆ Early Bird Discount: Please select "1 slot for 2 people: Early Bird Discount" during the application process ◆ For additional applications from the same organization, an additional 12,600 yen will be charged per person.
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basic information
The "sol-gel method" is an excellent technique for synthesizing glass, ceramics, inorganic-organic composites, or nanocomposites from the liquid phase. According to this method, it is possible to produce functional materials in various shapes, such as bulk bodies, membranes, fibers, coating films, or fine particles. In this seminar, titled "Introduction to Sol-Gel Technology," we will provide a detailed explanation of the basics, material selection, synthesis methods, application developments, and research trends, focusing on our research results.
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P2
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P2
Applications/Examples of results
1. Basics of the Sol-Gel Method 1.1. Sol-Gel Process and Characteristics 1.2. Synthesis of Glass Using the Sol-Gel Method 1.3. Fabrication of Coating Films Using the Sol-Gel Method 1.4. Synthesis of Ceramics Using the Sol-Gel Method 1.5. Synthesis of Inorganic-Organic Composites Using the Sol-Gel Method 1.6. Mechanical Property Evaluation of Gel Films by Indentation Method 2. Water-Repellent and Hydrophilic Coatings Using the Sol-Gel Method 2.1. Basic Knowledge of Hydrophilicity and Hydrophobicity 2.2. Low-Temperature Synthesis of Titania Nanocrystalline Dispersion Thin Films and Applications to Photocatalysis and Anti-Fogging 2.3. Structural Control of Nanocrystalline Thin Films Using External Fields 2.4. Low-Temperature Synthesis of Anatase Dispersion Mesoporous Thin Films 2.5. Design of Water-Repellent and Oil-Repellent Surfaces Using a Flip-Flop Mechanism 2.6. Design of High-Functionality Surfaces Combining Water-Repellency and Photocatalytic Activity 3. Micro and Nano Patterning Using the Sol-Gel Method 4. Fabrication of Proton-Conductive Materials Using the Sol-Gel Method and Applications to Fuel Cells 4.1. Basics of Ion Conduction in Solids 5. Synthesis of Novel Composites by Mechanical Milling Treatment of Composite Oxide Gels 6. Future Prospects
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