Tiny robots that can transport individual neurons and connect them to form active neural circuits could help us study brain disorders such as Alzheimer's disease ...

New cell-scale robots can sense their environment, compute decisions, and move independently without magnetic or ultrasonic control systems.

Abstract: the technology behind wireless communication and wireless charging has developed a long way. However, some problems still lie at the heart of this advancement. The most common among them are ...

Dr. Barrie-Anthony is a psychoanalyst. For the vast majority of my psychotherapy patients, the gravitational pull of phones and social media alters the most important aspects of who they are, their ...

Space technology on Earth has gone from futuristic to foundational in our everyday lives. From satellite innovations that enable global communication to space science applications improving ...

Magnetic microrobots carry medicine through blood and release it only where needed, while being tracked inside the body using combined light and sound imaging. (Nanowerk Spotlight) When a cancer drug ...

What does taking a selfie and going into space have in common? More than you might think. It turns out the camera in your cellphone made its way to you via space technology developed at NASA’s Jet ...

Can microbots revolutionize the future of medicine? This video delves into the innovative applications of microbots in healthcare and explores their potential impact on medical advancements.

A new technique that uses bubble-popping as a possible propulsion system for microbots, potentially leading to the replacement of needle-based drug delivery, has been developed by researchers from ...

Researchers have developed an ingenious method of targeted drug delivery using 3D printing. Today’s medicine involves thousands of different drugs, and most are simply administered to the entire body.