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This book is an introductory text for graduate students, researchers in industries, and those who are just beginning to work on organic electronics materials, devices and their applications. The book includes mainly fundamental principles and theories for understanding organic electronics materials and devices, but also provides information about state-of-the-art technologies, applications and future prospects. These topics encompass physics for organic transistors, structure control technologies of polymer semiconductors, nanomaterials electronics, organic solar cells, organic electroluminescence and dynamics for excitation, among others. In this second edition, the topics that have had particular progress in the field of organic electronics over the past seven years were added. For example, Thermally Activated Delayed Fluorescence (TADF) technology for organic LED, the development of perovskite materials, light-emitting materials using nanomaterials and the development of skin sensors and wearable/embedded devices. The recent scientific understanding of organic electronics is also introduced. This book will help readers to be able to contribute to society with the technologies and science of organic electronics materials in the future.
This monograph shares a newly emerging point of view among researchers and students in the field of materials science. Inspired by the presence of precisely determined molecular-level sequence structures in a wide range of biomolecules, a growing number of synthetic compounds with the same structural feature are appearing day by day. These examples in the interdisciplinary areas of materials science are collected in this monograph to provide readers with a good understanding of the state-of-the-art accessible structural level, characteristic features, and future potentials of these types of compounds. The major target audience of this monograph include Ph.D. students and researchers who have just begun their careers, who are seeking novel research directions, ideas, and inspiration. Among the diverse examples of synthetic molecular sequences referred to in the monograph, experienced experts can also find work that is informative and relevant to their own research, making the book worthwhile reading for these specialists.
This book will be of interest to scholars and students of Asian studies, cultural industries, economic geography, and related areas of study. It discusses the results of a microscopic survey focusing on topics such as how animation studios form business relationships and how workers gain skills in the industry. The methodology was based on traditional Japanese economic geographical methods. The study also examines macroscopic issues such as why industrial agglomerations are formed in metropolises, why metropolises develop mutual networks, and how a type of cultural product is created in the metropolises. The methodology uses case studies of the animation industries in Japan, South Korea, and China. The detailed analysis covers the process of the industry¿s agglomeration within the East Asian metropolises of Tokyo, Seoul, and Shanghai as well as the division of labor among them. In addition, the transaction relationships among animation studios are examined, together with the promotion of the industry in the peripheral region of Okinawa, Japan. Differences in work styles and output among these cities are also examined. The research presented in this book contributes to understanding the spatial structure and reality of creativity in an innovative industry, particularly the East Asian content industry.
This book is a collection of papers presented at the Forum ¿The Impact of Applications on Mathematics¿ in October 2013. It describes an appropriate framework in which to highlight how real-world problems, over the centuries and today, have influenced and are influencing the development of mathematics and thereby, how mathematics is reshaped, in order to advance mathematics and its application. The contents of this book address productive and successful interaction between industry and mathematicians, as well as the cross-fertilization and collaboration that result when mathematics is involved with the advancement of science and technology.
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