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Stretchable Silicon Electronics
Wafer-Level Packaging Symposium, 2009ABSTRACT Wafer-level processing modules for converting rigid single-crystalline silicon electronics into stretchable systems are presented. The proposed and demonstrated approaches are based on silicon substrate segmentation into small functional islands and interconnecting these either by deformable metal ...
M. Bartek, T. Zoumpoulidis, S. Sosin
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Stretchable, Large‐area Organic Electronics
Advanced Materials, 2010AbstractStretchability will significantly expand the application scope of electronics, particularly large‐area electronics—displays, sensors, and actuators. If arbitrary surfaces and movable parts could be covered with stretchable electronics, which is impossible with conventional electronics, new classes of applications are expected to emerge. A large
Tsuyoshi Sekitani, Takao Someya
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Stretchable Electronics with Strain‐Resistive Performance
Small, 2023AbstractStretchable electronics have attracted tremendous attention amongst academic and industrial communities due to their prospective applications in personal healthcare, human‐activity monitoring, artificial skins, wearable displays, human‐machine interfaces, etc.
Sihui, Hou +5 more
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Stretchable Inorganic‐Semiconductor Electronic Systems
Advanced Materials, 2011Electronic and optoelectronic semiconductor components are the building blocks of modern instrumentation and equipment for sensing, computation, display, and communication. Systems incorporating these components are typically made on mechanically rigid printed circuit boards (PCBs). These systems can also be built on polymer-based fl exible PCBs, [ 1 ]
Xiaolong, Hu +5 more
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Stretchable Interconnects for Elastic Electronic Surfaces
Proceedings of the IEEE, 2005Elastic electronic surfaces will integrate stiff thin film devices onto compliant polymer substrates. These surfaces may be stretched once or many times, by up to tens of percent strain. One way to make such an elastic electronic surface is to distribute rigid subcircuit islands over the polymer surface, and then fabricate active devices on the islands.
Stéphanie P. Lacour +4 more
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Graphene‐Based Flexible and Stretchable Electronics
Advanced Materials, 2016Graphene provides outstanding properties that can be integrated into various flexible and stretchable electronic devices in a conventional, scalable fashion. The mechanical, electrical, and optical properties of graphene make it an attractive candidate for applications in electronics, energy‐harvesting devices, sensors, and other systems.
Houk, Jang +5 more
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Flexible and Stretchable Electronics for Biointegrated Devices
Annual Review of Biomedical Engineering, 2012Advances in materials, mechanics, and manufacturing now allow construction of high-quality electronics and optoelectronics in forms that can readily integrate with the soft, curvilinear, and time-dynamic surfaces of the human body. The resulting capabilities create new opportunities for studying disease states, improving surgical procedures ...
Dae-Hyeong, Kim +3 more
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Ionic Gels and Their Applications in Stretchable Electronics
Macromolecular Rapid Communications, 2018AbstractIonic gels represent a novel class of stretchable materials where ionic conducting liquid is immobilized in a polymer matrix. This review focuses on the design of ionic gel materials and device fabrication of ionic‐gel‐based stretchable electronics.
Haifei Wang +5 more
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Stretchable interconnections for flexible electronic systems
2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2009Sensors, actuators and integrated circuits (IC) can be encapsulated together on an elastic substrate, which makes a flexible electronic system. In this system, electrical interconnections that can sustain large and reversible stretching are in great need. This paper is devoted to the fabrication of highly stretchable metal interconnections.
Lin, Jianhui +4 more
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Stretchable Figures of Merit in Deformable Electronics
Advanced Materials, 2015Stretchable electronic systems accommodate strain in various ways-from the intrinsic mechanical properties, through composite structures, by the formation of cracks, or with other mechanisms. This has produced some imprecision in the literature on what is meant by the term "stretchable."
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