Fundamentals, Structure, Principles, Synthesis Techniques, and Application Development of Quantum Dot Phosphors
S50342
Applications for improving color rendering and wavelength conversion elements in lighting, displays, and imaging!
【Venue】 Tekuno Kawasaki 5F, Room 5 Training Room 【Kanagawa, Kawasaki】 【Date and Time】 March 26, 2015 (Thursday) 11:00-16:00 【Instructors】 Part 1: Masaki Hasegawa, Ph.D., Manager, Advanced Technology Division, Performance Materials, Merck Ltd. Part 2: Takahisa Omata, Ph.D. (Engineering), Associate Professor, Department of Material Production Science, Graduate School of Engineering, Osaka University Part 3: Takeshi Fukuda, Assistant Professor, Department of Material Science, Graduate School of Science and Engineering, Saitama University
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**Lecture 1: Summary of the Presentation** In this lecture, I will briefly introduce the structure, principles, and fabrication methods of colloidal quantum dots used as phosphors. I will also explain their applications in displays and lighting, and discuss current challenges and future possibilities for application. Why are quantum dots now making their way into products? Could they be the savior of liquid crystal displays? **Lecture 2: Summary of the Presentation** Currently, research and development utilizing quantum dot phosphors is focused on cadmium-based materials, particularly cadmium selenide (CdSe), which is the most high-performance among existing quantum dot materials. In the future, the development of cadmium-free materials will be essential, and the success of this endeavor is believed to hold the key to the overall success of colloidal quantum dot application technologies. In this presentation, I will explain the design and synthesis of cadmium-free quantum dot phosphors, as well as technologies related to various light-emitting devices using quantum dots, focusing on the achievements of the presenters. **Lecture 3: Summary of the Presentation** In this presentation, I will introduce the fabrication technology of semiconductor quantum dot-dye conjugates that use luminescence to measure pH as bioimaging materials. I will also present high-speed synthesis technology and real-time evaluation technology for semiconductor quantum dot-dye conjugates using microfluidics.
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From March 13, the cost will be 57,240 yen (including tax and text fees) for 2 people from 1 company.
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P2
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Part 1: Structure, Principles, and Production Methods of Colloidal Quantum Dots and Their Applications in Lighting and Displays 【11:00-12:15】 1. What are quantum dots? 1-1 Self-assembled quantum dots 1-2 Colloidal quantum dots 2. Band gap of colloidal quantum dots 2-1 Relationship with materials 2-2 Relationship with particle size 3. Applications 3-1 Displays 3-1-1 Quantum dot LEDs 3-1-2 LCD backlighting 3-1-3 Self-emissive LCDs 3-2 Lighting 3-2-1 Color rendering 3-2-2 Wavelength conversion 4. Issues and solutions for colloidal quantum dots 4-1 Stability 4-2 Advances in Cd-free technology 5. Current status of display applications 5-1 Supply of quantum dots Part 2: Design, Synthesis, and Application Development of Cadmium-Free Quantum Dot Phosphors 【13:15-14:30】 Part 3: Synthesis of Semiconductor Quantum Dot Phosphors and Their Applications in Imaging 【14:45-16:00】
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