Graphene Structure Makes Wearable Sensors Affordable
A new technique for creating a graphene structure could democratize the production of wearable sensors
A new technique for creating a graphene structure could democratize the production of wearable sensors
Researchers are harnessing electrical signals from mushrooms as biosensors to create hybrid robots that react to their environments in novel ways.
Agricultural sensors powered by bacteria in the soil: the sustainable solution to monitor fields without worrying about batteries.
The new ingestible capsules, tested on animals and synthetic intestines, are resistant and economical: they could transform diagnostics.
The new communication networks use microchips the size of a grain of salt, which can be implanted in the body or in wearable devices.
Researchers have developed special optical sensors that can give a soft robot self-healing characteristics.
Cities are filling up with new generation sensors, which “see” and process. How will they transform the future?
A team of researchers is working on tiny devices that can contain sensors and retrieve information quickly.
They could help growers understand the best time to use fertilizers on their crops
A totally different approach to that of brain implants at Neuralink. Laboratory tests are encouraging: next step, animal testing.
A theater that is no longer a theater, for spectators who are no longer spectators. Illuminarium is this, and it will be part of the future of entertainment.
An intelligent bed that observes the context and adapts accordingly, helping us to improve health and performance: Pod Pro sets a new standard.
A system of spray sensors that can constitute a veritable electronic sprayable coating. To connect everything from small objects to smart cities.
Thanks to an innovative reading method, data can now be obtained from microsensors less than 1 millimeter in size. The era of injectable implants is born.
Smaller and smaller biosensors allow the development of devices never seen before, such as these glasses to monitor diabetes through tears.
The best medical devices for measuring blood pressure today require a prolonged stay of the patient in the clinic. An experimental sensor can adhere to the skin almost like a tattoo and monitor this parameter in real time 24 hours a day. Why is a wearable sensor a revolution? A flexible and wearable sensor marks the difference between a simple 'photograph' of the patient and a constant path that allows us to perfectly understand what correlations exist between daily activities and the variation... Read more
David Sretavan, professor of ophthalmology at the University of California, San Francisco, studies how to repair damage to the optic nerve caused by glaucoma, a disorder that causes irreversible blindness and affects approximately 70 million individuals worldwide. Glaucoma is a disorder that arises from a complex of causes without an apparent trigger. We try to monitor its possible onset by measuring the pressure of the eyeball, but the rapid and frequent fluctuations of ... Read more
Breakthrough in early diagnosis: Nanotechnology sensor analyzes breath, detects early-stage lung cancer.
Turbulence will no longer be a problem: a bird-inspired AI will allow planes to predict and manage disturbances.
Copper and graphene come together in an innovative thermal paper that heats and dehumidifies. Glasgow leads the way for a more sustainable future.
Japanese Solar Revolutionizes the Market with Sphelar: Spherical Cells Capture Light from Every Angle. Efficiency and Versatility at the Top.