Flexible and Stretchable Electronics
Materials, Design, and Devices
Gang Liu editor Run-Wei Li editor
Format:Hardback
Publisher:Pan Stanford Publishing Pte Ltd
Published:31st Dec '19
Currently unavailable, and unfortunately no date known when it will be back
With the recently well developed areas of Internet of Thing, consumer wearable gadgets and artificial intelligence, flexible and stretchable electronic devices have spurred great amount of interest from both the global scientific and industrial communities. As an emerging technology, flexible and stretchable electronics requires the scale-span fabrication of devices involving nano-features, microstructures and macroscopic large area manufacturing. The key factor behind covers the organic, inorganic and nano materials that exhibit completely different mechanical and electrical properties, as well as the accurate interfacial control between these components. Based on the fusion of chemistry, physics, biology, materials science and information technology, this review volume will try to offer a timely and comprehensive overview on the flexible and stretchable electronic materials and devices. The book will cover the working principle, materials selection, device fabrication and applications of electronic components of transistors, solar cells, memories, sensors, supercapacitors, circuits and etc.
"This book is dedicated to flexible electronics and is written by a series of experts in the field. There are ten chapters describing materials and devices for flexible and stretchable electronics. The first five chapters are dedicated to organic field-transistors, solar cells, memories and sensors. The last five chapters deal with supercapacitors, wearable electronics and printed circuits.
The book has nice color illustrations and is written in a clear manner. It is recommended for anybody working in organic electronics or photonics."
Mircea Dragoman, National Research and Development Institute in Microtechnology, Romania.
ISBN: 9789814800464
Dimensions: unknown
Weight: 910g
392 pages