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Image of flexible printed circuits prior to de-panelization. An Olympus Stylus camera without the case, showing the flex circuit assembly. Flexible electronics, also known as flex circuits, is a technology for assembling electronic circuits by mounting electronic components on flexible plastic substrates, such as polyimide, PEEK or transparent conductive polyester [1] film.
Stretchable electronics, also known as elastic electronics or elastic circuits, is a group of technologies for building electronic circuits by depositing or embedding electronic devices and circuits onto stretchable substrates such as silicones or polyurethanes, to make a completed circuit that can experience large strains without failure.
Wei Gao is a Chinese-American biomedical engineer who currently serves as a professor of medical engineering at the California Institute of Technology (Caltech). [1] Gao has been a professor at Caltech since 2017 and is an associate editor of the journals Science Advances, Biosensors and Bioelectronics, npj Flexible Electronics (), Journal on Flexible Electronics (), and Sensors & Diagnosis ...
Promoted by the demand for wearable devices, graphene has been proved to be a promising material for potential applications in flexible and highly sensitive strain sensors. An environment-friendly and cost-effective method to fabricate large-area ultrathin graphene films is proposed for highly sensitive flexible strain sensor.
The development of Flexible Surface Acoustic Wave (SAW) devices has been a significant driver in the advancement of wearable technology and microfluidic systems. These devices are typically fabricated on polymer substrates, such as Polyethylene Naphthalate (PEN) and polyimide, and utilize sputtering deposition of materials like AlN and ZnO. [44]
A few examples of joint sensing-communications applications are listed below. Intelligent Transport Systems (Vehicle-to-vehicle Communications) [6] [7] Commercial Flight Control [8] Communications & Military Radar [9] Remote Medical Monitoring and Wearable Medical Sensors [10] [11] High Frequency Imaging and Communications [12] [13] Li-Fi and ...
Flexible electronics: Research, development, prototypes, limited commercialization (e.g. Samsung Galaxy Fold) Flexible and/or foldable electronic devices, and flexible solar cells which are lightweight, can be rolled up for launch, and are easily deployable Nokia Morph, Flexible organic light-emitting diode
So far, the graphene plasmonic effects have been demonstrated for different applications ranging from light modulation [15] [16] to biological/chemical sensing. [17] [18] [19] High-speed photodetection at 10 Gbit/s based on graphene and 20-fold improvement on the detection efficiency through graphene/gold nanostructure were also reported. [20]