Researchers from the MIT Media Lab have developed an antenna—about the size of a fine grain of sand—that can be injected into the body to wirelessly power deep-tissue medical implants, such as ...

We’re living in the age of miniaturization. Whether it’s a smartwatch, AR glasses, or the many other gadgets we’ve reviewed here at Gizmodo, tech is getting increasingly smaller. New research takes ...

Researchers at the MIT Media Lab say a tiny antenna that they developed could wirelessly power deep-tissue medical implants.

The image was shown in perfect resolution on the screen, which at approximately 1.4 x 1.9 mm was 1/4000th that of a standard smartphone. "The technology that we have developed can provide new ways to ...

Smart glasses that display information directly in the field of vision are considered a key technology of the future—but until now, their use has often failed due to cumbersome technology. However, ...

When the utmost accuracy is paramount, this ½-inch digital torque wrench from GearWrench offers a top-of-the-line solution.

In the right combinations and conditions, two-dimensional materials can host intriguing and potentially valuable quantum phases, like superconductivity and unique forms of magnetism. Why they occur, ...

Abstract: A compact quasi-optical setup based on conventional rectangular horn antennas and two symmetrical parabolic mirrors is designed to provide a plane wave on the material under test. To measure ...

MIT's grain-sized magnetoelectric antenna wirelessly powers deep-tissue implants, enabling battery-free medical devices without the need for surgery or overheating.