Synthesis of multi-component high-performance inorganic materials centered on LED phosphors and various application developments.
S11033
★Should we create phosphors for LEDs, which are key materials to further enhance LED brightness? ★What is the know-how for material synthesis that enables high functionality?
Lecturer Professor Makoto Kakihana Tohoku University, Institute of Multidisciplinary Material Science Target Audience: Engineers, researchers, and beginners interested in synthesis methods for LED phosphors Venue: Tokyo Chuo Ward Industrial Hall, 4th Floor, Meeting Room 4 [Tokyo, Nihonbashi] 5 minutes from B4 exit via underground passage from Bakuroyokoyama Station on the Toei Shinjuku Line (Directions 2) 5 minutes from C1 exit via East Ticket Gate from Bakurocho Station on the JR Sobu Rapid Line (Directions 3) and others Date and Time: October 25, 2011 (Tuesday) 12:30-16:30 Capacity: 30 participants. Please apply early as registration will close once full. Participation Fee: [Early Bird Discount Price] 46,200 yen (tax included, including text costs) for up to 2 participants from one company *Limited to Tech-Zone members who apply by October 11. Membership registration is free. *After October 11, the [Regular Price] will be 49,350 yen (tax included, including text costs) for up to 2 participants from one company. ◆If 3 participants from the same organization apply, the fee will be 69,300 yen.
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basic information
**Course Objectives and Aims** This course introduces universal inorganic material synthesis techniques that effectively explore new materials and enable the achievement of high functionality in the field of ceramic-based inorganic solid materials, such as phosphors for white LEDs, catalysts, batteries, and dielectrics. It explains the principles and application examples of various reliable solution synthesis methods suitable for material exploration, followed by an introduction to the actual practices of material exploration and high functionality through parallel synthesis, aiming to provide convenience to researchers and engineers in the field. The key point to emphasize is that by taking this course, participants will acquire inorganic material exploration and high functionality techniques that can be performed by 'anyone, anytime, anywhere' (ubiquitously). **Special Notes** This course is suitable for both beginners in inorganic material synthesis and experienced researchers and engineers in the field, allowing everyone to participate with confidence. Participants will gain practical knowledge about inorganic material synthesis that cannot be obtained from existing texts or technical books, enabling them to implement what they learn as soon as tomorrow. We also provide introductions and referrals to those seeking assistance with research and development or technology transfer.
Price range
P2
Delivery Time
P2
Applications/Examples of results
1. Introduction 2. Fundamentals for Synthesizing Inorganic Solid Materials (Basic Principles) 3. Functionalization of Inorganic Solid Materials via Solution Methods 3-1 Key Approaches to Achieve Functionalization: Positioning of Solution Methods 3-2 Examples of Inorganic Material Synthesis Using Various Solution Methods 3-3 Examples of Synthesis of Inorganic Materials in Sulfide, Nitride, and Oxynitride Systems 3-4 Synthesis of Silicon-Containing Phosphors Using Water-Soluble Silicon Compounds: Remarkable Results 4. Exploration and Functionalization of Inorganic Materials through Parallel Synthesis Based on Solution Methods 4-1 Semi-Combinatorial in the Laboratory: Ubiquitous Parallel Synthesis 4-2 Shortcut to Discovering New Phosphors (Minimum Requirements) 4-3 Examples of Proposition Setting and Parallel Synthesis 5. Recent Hot Topics in the Field of Phosphors 5-1 Blue-Excited Yellow Phosphors: The Emergence of a Rival to the Classic YAG:Ce3+ (Sr,Ba)2SiO4:Eu2+ 5-2 Development of New Near-Ultraviolet Excited Cyan Phosphors: Discovery of BaZrSi3O9:Eu2+ 5-3 Approaching the Reproduction of Natural Tones: An Approach from Phosphors 5-4 Ceria-Based Ceramic Upconversion Phosphors 6. Conclusion: Scenarios for New Material Exploration and Functionalization
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