MXene-enhanced hydrogel sensors for wearable technologies and human-machine interfaces
Wearable hydrogel sensors with high sensitivity and robust performance enabled by molecular design and Kirigami structures.
Sep 21st, 2023Subscribe to our Nanotechnology Spotlight feed
Wearable hydrogel sensors with high sensitivity and robust performance enabled by molecular design and Kirigami structures.
Sep 21st, 2023Sscientists have developed a way to strategically align microscopic heat-dissipating particles using magnetic fields, creating expressways to channel heat away from overheating electronics.
Sep 12th, 2023Researchers demonstrated controllable atomic-scale patterning and resistive switching in 2D cuprous telluride crystals. Their memristor model and applications in image processing signify progress towards advanced in-memory computing.
Sep 12th, 2023Researchers develop a fully biodegradable and biocompatible ionotronic skin that rapidly dissolves in physiological fluids, opening the door to zero-waste wearable electronics.
Sep 1st, 2023Researchers develop flexible health sensor with game-changing sensitivity. Integrating photoconductor and organic transistors enables exponential signal boost, allowing accurate continuous monitoring of heart rate, blood oxygen, blood pressure during normal daily activities.
Aug 3rd, 2023Researchers have developed an innovative electronic skin patch that mimics attributes of human skin for sensing biomechanical and bioelectrical signals relevant to health monitoring. The device is skin-like stretchable, breathable, and has self-adhesive properties and superior capabilities for precision mobile health tracking.
Jul 18th, 2023Recent research has focused extensively on utilizing natural materials such as silk, wood, paper, plant fibers, and biomass for fabricating green electronics. These materials are abundant, low-cost, renewable, and biodegradable, making them an ideal alternative to conventional plastics.
Jul 17th, 2023Researchers present the first fully roll-to-roll processed flexible Giant Magnetoresistance (GMR) thin-films with large-area deposition approach providing high-yield of magnetoresistive material.
Jul 10th, 2023