A stretchable carbon nanotube strain sensor for human-motion detection

TL;DR: This paper categorizes the work on wearable flexible sensors according to the materials used for designing the system, the network protocols, and different types of activities that were being monitored.

TL;DR: In this paper, the development of high performance light-emitting devices with flexible and stretchable form factors is described. But the development is mainly achieved by replacing the rigid materials in the device components with flex...

TL;DR: This research presents a new approach to nanofabrication that combines photolysis, a very simple and scalable process, with real-time results that can be used to fabricate large quantities of high-quality composite materials.

TL;DR: A novel hydrogel was synthesized by incorporating polydopamine-coated talc (PDA-talc) nanoflakes into a polyacrylamide (PAM)Hydrogel inspired by the natural mussel adhesive mechanism, which displayed strong adhesiveness to various substrates, including human skin, and the adhesion strength surpassed that of commercial double-sided tape and glue sticks.

TL;DR: Water-stimulated enhanced catalytic activity results in massive growth of superdense and vertically aligned nanotube forests with heights up to 2.5 millimeters that can be easily separated from the catalysts, providing nanotubes material with carbon purity above 99.98%.

TL;DR: This dense carbon-nanotube material is advantageous for numerous applications, and here it is demonstrated its use as flexible heaters as well as supercapacitor electrodes for compact energy-storage devices.

TL;DR: The manufacture of printable elastic conductors comprising single-walled carbon nanotubes (SWNTs) uniformly dispersed in a fluorinated rubber is described, which is constructed a rubber-like stretchable active-matrix display comprising integrated printed elastic conductor, organic transistors and organic light-emitting diodes.

TL;DR: A simple approach to high-performance, stretchable, and foldable integrated circuits that integrate inorganic electronic materials, including aligned arrays of nanoribbons of single crystalline silicon, with ultrathin plastic and elastomeric substrates.