Image: A low-power, sensor system developed at the University of Michigan 1,000 times smaller than comparable commercial counterparts. It could enable new biomedical implants. Photo by: Daeyeon Kim ...

You are the protagonist in a thriller. One morning, an unknown caller with a distorted voice says, "To save your city, solve the puzzle. Go to the coordinates. X marks the clue." You rush to the spot ...

A millimeter-scale, chip-less and battery-less implant can wirelessly monitor a series of parameters within your body and communicate with a wearable device attached on the skin. In a recent study ...

Abstract: Millimeter-scale mechanisms, from novel actuators and sensors to insect-inspired flying vehicles, have applications in medical devices, infrastructure inspection, small satellites, and more.

Imperfect current propagation in the heart is responsible for most cardiac diseases. Thanks to a novel magnetocardiography technique, we can now image these currents at millimeter-scale resolutions.

A team of engineers at Stanford has demonstrated the feasibility of a super-small, implantable cardiac device that gets its power not from batteries, but from radio waves transmitted from outside the ...

Integrates all optical components on one chip made using industry-standard fabrication techniques. Chip with optical components used to generate quantum-based random numbers. Researchers, led by ...

imec paves the way to a new generation of implantable and ingestible health-monitoring sensors. This week, at ISSCC 2020 (Feb. 16–20, San Francisco), imec, a world-leading research and innovation hub ...

Image: A low-power, sensor system developed at the University of Michigan 1,000 times smaller than comparable commercial counterparts. It could enable new biomedical implants. Photo by: Daeyeon Kim ...