CMC Publishing Co., Ltd.
The long-awaited sequel to the popular foreword, “Development of Next-Generation Phosphor Materials”! This book is recommended for those involved in the research and development of phosphor materials, providing a detailed explanation of the latest phosphor materials and application technologies, including quantum dots, which won the 2023 Nobel Prize in Chemistry!
The book “-Continued-Development of next-generation phosphor materials” (supervisor: Tetsuhiko Isobe) has been published on August 30, 2024!
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CMC Publishing Co., Ltd. (Headquarters: Chiyoda-ku, Tokyo,
Representative: Kenji Tsuji), which publishes technology and market trend reports on new materials, chemicals, etc., publishes the book “-Continued-Development of next-generation phosphor materials. ” (Supervision: Tetsuhiko Isobe) was published on August 30, 2024. The list price is 71,500 yen including tax (base price 65,000 yen tax), and orders are accepted on our EC site and at bookstores nationwide.
Please see our website below for details such as the table of contents. https://www.cmcbooks.co.jp/products/detail.php?product_id=115630
On publication
Under my supervision, I published “Development and Application of Nanophosphor” in August 2007, “Phosphor Materials for Wavelength Conversion – Focusing on Applications to White LEDs and Solar Cells” in August 2012, and 2016 “Development of next-generation phosphor materials” was planned and published in July. Eight years have passed since then, and in that time fascinating phosphor materials have been developed. Therefore, we decided to plan “-Continued-Development of next-generation phosphor materials” and introduce the subsequent development status of phosphor materials. Quantum dot phosphors are featured in Part 1 as a material that is undergoing significant evolution. As you know, the 2023 Nobel Prize in Chemistry was awarded to three researchers, Moungi G. Bawendi, Louis E. Brus, and Alexey I. Ekimov, for their work in the discovery and synthesis of quantum dots. I did. Dr. Bawendi developed the hot injection method in the early 1990s, which made it possible to synthesize quantum dot phosphors whose size could be controlled and the emission wavelength freely adjusted, which had a major impact on the field of phosphors. I gave it. The initial research target material was CdSe, which emits light at visible wavelengths, but Cd-free quantum dot materials have since been developed. This book covers the development of cesium lead halide perovskite quantum dots, which became popular in the mid-2010s, their ink development, and their application to LEDs. (Omitted) Furthermore, we are covering carbon quantum dots, which are attracting attention as a new quantum dot. Furthermore, in the field of solar cells, where quantum dots are expected to be applied, we introduce how clean sunlight can be utilized using quantum dot phosphors. Part 2 introduces advanced rare earth complex phosphors and organic phosphors with improved durability and color purity. Part 3 covers the advancement of single particle diagnostic methods, the combination of theoretical calculations and machine learning, and the exploration of the characteristics of LED phosphors using high voltage, as
technologies expected to develop new phosphors. Other products on display include transparent ceramic phosphors, LEDs for plant growth, micro LEDs, phosphors for laser excitation, and phosphors for radiation measurement. Tetsuhiko Isobe (excerpt from this book “On Publication”)
author
Tetsuhiko Isobe Keio University
Yuki Iso Keio University
Ryota Ohashi Canon Inc.
Taro Agematsu Osaka University
Kenichi Saito Hiroshima University
Takayuki Chiba Yamagata University
Yuyo Nishimura Osaka City University
Daiki Kane Osaka City University; Osaka Public University
Takayuki Nakanishi National Institute for Materials Science
Jun Shoji Nara Women’s University
Others total 28 people
table of contents
[Part 1: Development and application of quantum dot phosphors] Chapter 1 Development of cesium lead halide quantum dot phosphor Chapter 2 Development of highly durable perovskite quantum dot ink Chapter 3 Development of Group 11-13-16 multi-semiconductor quantum dot phosphor Chapter 4 Highly luminescent silicon quantum dot phosphor –
Development of synthesis method and development of coated LED – Chapter 5 Development of carbon quantum dot phosphor
Chapter 6 Development of perovskite quantum dot LED
Chapter 7 Application of Mn2 -doped quantum dot phosphor to wavelength conversion for solar cells
Chapter 8 Application of quantum dot phosphors to luminescent solar concentrators
[Part 2: Development and application of rare earth complexes and organic phosphors]
Chapter 1: Material design of rare earth coordination compound phosphors for next-generation LED displays
Chapter 2 Application of rare earth complex phosphors to plant growth Chapter 3: Creation and application of rare earth fluorescent complexes with novel phosphine oxide ligands
Chapter 4 Development and application of high color purity and highly durable organic phosphors
[Part 3: Development and application of bulk phosphors]
Chapter 1: Development of phosphors using a combination of
first-principles calculations and machine learning
Chapter 2: Latest phosphor quantum efficiency measurement – Powder relative quantum efficiency measurement method and single particle proximity fluorescence measurement method –
Chapter 3: Improving the characteristics of a Sialon phosphor and its applications
Chapter 4 Manufacture and application of transparent fluorescent sialon ceramics Chapter 5: Exploring new properties of LED and related phosphors Chapter 6 Development of LED for plant growth
Chapter 7 Advantages of UV-LED over red/green/blue LED
Chapter 8 Development of phosphor for laser excitation
Chapter 9 Development of bulk single crystal phosphor for radiation measurement ★Click here for detailed catalog★
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