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Informationen zum Autor Quan Li, PhD, is Director of Organic Synthesis and Advanced Materials Laboratory at the Liquid Crystal Institute and Adjunct Professor in the Chemical Physics Interdisciplinary Program of Kent State University, where he has directed research projects supported by the National Science Foundation and other U.S. government agencies and several companies. He received his PhD in organic chemistry from the Chinese Academy of Sciences in Shanghai, where he was promoted to a Full Professor of Organic Chemistry and MedicinalChemistry in 1998. Klappentext A cutting-edge introduction to self-organized organic semiconductors T his book provides a thorough, up-to-date, easily accessible introduction to the exciting topic of self-organized organic semiconductors. The first book on the market devoted to the subject, it combines information from across the literature in one complete volume, covering organic semiconductor materials, fabrication, characterization, and device applications. Self-contained chapters focus on key areas carefully selected from this vast interdisciplinary field, exploring the self-organized features that put these organic semiconductors at the forefront of scientific research today. The material is highly relevant for readers in diverse disciplines, from organic chemistry to nanotechnology, from materials science to liquid crystals, and many more. Coverage includes: Applications in photovoltaics, light-emitting diodes (LEDs), and transistors Innovative methods such as crystal engineering, conjunction, and self-assembly Molecular materials, liquid crystals, oligomers, carbon nanotubes,fullerenes, and polymers The scientific fundamentals, supplemented with resource listings and figures A useful resource for researchers and engineers in academia and industry, Self-Organized Organic Semiconductors will provide interested readers with the grounding they need to jump-start the development of novel organic semiconductors and applications. Zusammenfassung Organic semiconductors are attracting tremendous attention since they are cheap, easy to process, and capable of being deposited on flexible substrates and bent, while their inorganic competitors, e.g. crystalline silicon, would crack. Inhaltsverzeichnis Preface. Contributors. 1 Crystal Engineering Organic Semiconductors ( Joseph C. Sumrak, Anatoliy N. Sokolov, and Leonard R. MacGillivray ). 2 Conjugated Block Copolymers and Cooligomers ( Yongye Liang and Luping Yu ). 3 Charge Transports and Its Modeling in Liquid Crystals ( Jun-ichi Hanna and Akira Ohno ). 4 Self-Organized Discotic Liquid Crystals as Novel Organic Semiconductors ( Manoj Mathew and Quan Li ). 5 Self-Organized Semiconducting Smectic Liquid Crystals ( Ji Ma and Quan Li ). 6 Self-Assembling of Carbon Nanotubes ( Liming Dai ). 7 Self-Organized Fullerene Based Organic Semiconductors ( Li-Mei Jin and Quan Li ). 8 High-Efficiency Organic Solar Cells Using Self-Organized Materials ( Paul A. Lane ). 9 Selective Molecular Assembly for Bottom-Up Fabrication of Organic Thin-Film Transistors ( Takeo Minari, Masataka Kano, and Kazuhito Tsukagoshi ). Index. ...
