The chip could potentially be used to power drones, robotics, smart watches, and bionic implants.
In 10 years, tiny nanobots in your blood might help keep you from getting sick or even transmit your thoughts to a wireless cloud.
‘Sound beaming’ 3D technology from Noveto Systems tracks ear and sends it audio using ultrasonic waves, creating personal listening pockets.
Mars is so dry because its water constant escapes into space. A new study suggests this process occurs in the ionosphere and faster than thought.
Multilayer plastic materials are ubiquitous in food and medical supply packaging, particularly since layering polymers can give those films specific properties, like heat resistance or oxygen and moisture control. But despite their utility, those ever-present plastics are impossible to recycle using conventional methods.
About 100 million tons of multilayer thermoplastics — each composed of as many as 12 layers of varying polymers — are produced globally every year. Forty percent of that total is waste from the manufacturing process itself, and because there has been no way to separate the polymers, almost all of that plastic ends up in landfills or incinerators.
Now, University of Wisconsin-Madison engineers have pioneered a method for reclaiming the polymers in these materials using solvents, a technique they’ve dubbed Solvent-Targeted Recovery and Precipitation (STRAP) processing. Their proof-of-concept is detailed today (November 20, 2020) in the journal Science Advances.
Researchers pitted the biggest computer chip in the world against a supercomputer to simulate combustion—and the megachip won the race by a mile.
When the Mini Vision Urbanaut is parked, the dashboard can turn into a daybed among other lounging-related abilities in the concept car.
After years of underplaying soft threats like disease and climate change, the national-security establishment faces calls for a new approach in light of Covid-19 crisis.