KAUST DepartmentIntegrated Nanotechnology Lab
Integrated Disruptive Electronic Applications (IDEA) Lab
Electrical Engineering Program
Computer, Electrical and Mathematical Sciences and Engineering (CEMSE) Division
Permanent link to this recordhttp://hdl.handle.net/10754/608647
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AbstractToday’s state-of-the-art electronics are high performing, energy efficient, multi-functional and cost effective. However, they are also typically rigid and brittle. With the emergence of the Internet of Everything, electronic applications are expanding into previously unexplored areas, like healthcare, smart wearable artifacts, and robotics. One major challenge is the physical asymmetry of target application surfaces, which often cause mechanical stretching, contracting, twisting and other deformations to the application. In this review paper, we explore materials, processes, mechanics and devices that enable physically stretchable and reconfigurable electronics. While the concept of stretchable electronics is commonly used in practice, the notion of physically reconfigurable electronics is still in its infancy. Because organic materials are commonly naturally stretchable and physically deformable, we predominantly focus on electronics made from inorganic materials that have the capacity for physical stretching and reconfiguration while retaining their intended attributes. We emphasize how applications of electronics dictate theory to integration strategy for stretchable and reconfigurable inorganic electronics.
CitationFrom stretchable to reconfigurable inorganic electronics 2016 Extreme Mechanics Letters
SponsorsThis publication is based upon work supported by the King Abdullah University of Science and Technology (KAUST) under Award No. BAS/1/1619-01-01. We are thankful to Prof John Rogers of University of Illinois—Urbana Champaign for useful suggestions. We sincerely thank Seneca J. Velling for proof reading. We deeply appreciate Prof. Zhigang Suo of Harvard University for kindly inviting us to write this timely review.
JournalExtreme Mechanics Letters