A comprehensive review of printed electronics technologies In Technologies for Printed Sensors and Electronics, an expert team of engineers delivers a comprehensive survey of a variety of contact and non-contact printed electronics manufacturing technologies, as well as their applications. The book brings together printing techniques and offers detailed discussions of their potential capabilities and the critical limitations of each technology. The authors also describe how those limitations might be solved and alternatives that might be explored in the future. Technologies for Printed Sensors…mehr
A comprehensive review of printed electronics technologies In Technologies for Printed Sensors and Electronics, an expert team of engineers delivers a comprehensive survey of a variety of contact and non-contact printed electronics manufacturing technologies, as well as their applications. The book brings together printing techniques and offers detailed discussions of their potential capabilities and the critical limitations of each technology. The authors also describe how those limitations might be solved and alternatives that might be explored in the future. Technologies for Printed Sensors and Electronics describes the potential development of a common platform, assuming that the limitations of a single method might be overcome by the advantages of the others. It also evaluates printed electronics on the basis of the electrical characteristics of the resulting devices or sensors, the materials they're made of, and their anticipated applications. The book also includes: * A thorough introduction to the history of printed electronics, including push and pull factors influencing the rise of printed electronics and the repurposing of traditional printing techniques for printed electronics * Comprehensive explorations of functional materials used in printable electronic materials, including their classification and discussions of organic and inorganic materials * In-depth examinations of substrates and packaging materials and their physical and chemical behavior, as well as discussions of use constraints in different applications Perfect for senior undergraduate and graduate students in electrical and electronics engineering, material science, 3D printing, physics, and chemistry, Technologies for Printed Sensors and Electronics will also earn a place in the libraries of researchers, practitioners, and students working in or studying biomedical engineering.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Abhishek Singh Dahiya is a Research Associate in the School of Engineering at the University of Glasgow. He received Ph.D. from the Université François Rabelais de Tours (GREMAN laboratory), France in 2016. He has done postdoctoral work at various CNRS laboratories in France: GREMAN (2016-2017), ICMCB (2018-2019), and IES/LIRMM (2019-2020). His research interest includes synthesis of nanomaterials, nanofabrication, energy harvesting, printed and flexible electronics, and semiconductor devices. Matti Mäntysalo, D.Sc. (Tech.), is a Professor of Electronics in Faculty of Information Technology and Communication Sciences at Tampere University, Finland. His research interest includes printed electronics materials, fabrication processes, stretchable electronics, wireless sensors, and integration of printed electronics with silicon-based technologies. Ravinder Dahiya (IEEE Fellow) is Professor of Electronics and Nanoengineering and Engineering and Physical Sciences Research Council (EPSRC) Fellow in the James Watt School of Engineering at the University of Glasgow. He is the leader of Bendable Electronics and Sensing Technologies (BEST) Group, which conducts fundamental research in flexible/printed electronics and electronic skin and their application in robotics, wearables and interactive systems. He is the President of IEEE Sensors Council.
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