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Informationen zum Autor Janelle Leger is an Assistant Professor at Western Washington University in the Department of Physics and Astronomy, the Department of Chemistry, and the Advanced Materials Science and Engineering Center. Her research group explores organic and hybrid electronic and optoelectronic devices as well as structures for subwavelength optics. Magnus Berggren is the Önnesjö professor at Linköping University, Sweden, and guides the research activity of the organic electronics group. This group explores electronic and optoelectronic functions of organic materials for paper electronics and bioelectronics applications. Sue A. Carter is a Professor of Physics at University of California, Santa Cruz. Over the last 15 years, her research has focused on the electronic, magnetic, thermal, and optical properties of inorganic, organic, and biological materials. Currently, she is studying the application of nanostructured materials to next generation energy technologies, including solid-state lighting, solar cells, and electrochemical cells. Klappentext The field of organic electronics promises exciting new technologies based on inexpensive and mechanically flexible electronic devices. It has progressed over the past three decades to the point of commercial viability and is projected to grow to a 30 billion dollar market by the year 2015. Exploring new applications and device architectures! this book sets the tone for that exploration! gathering a community of experts in this area who are focused on the use of ionic functions to define the principle of operation in polymer devices. The contributors detail relevant technologies based on organic electronics! including polymer electrochromic devices and light-emitting electrochemical cells. Zusammenfassung The field of organic electronics promises exciting technologies based on inexpensive and mechanically flexible electronic devices. This book details relevant technologies based on organic electronics, including polymer electrochromic devices and light-emitting electrochemical cells. Inhaltsverzeichnis Electrochemistry of Conjugated Polymers. From Metal to Semiconductor and Back—Thirty Years of Conjugated Polymer Electrochemistry. Development and Applications of Ion-Functionalized Conjugated Polymers. Electrochemical Biosensors Based on Conducting Polymers. The Light-Emitting Electrochemical Cell. Fixed Junction Light-Emitting Electrochemical Cells. Electrochromic Displays. Conjugated Polymers as Actuators for Medical Devices and Microsystems. Organic Electrochemical Transistors for Sensor Applications. Polyelectrolyte-Gated Organic Field-Effect Transistors. ...
