Modern devices, from fitness trackers and smart garments to Internet of Things (IoT) sensors, require compact and sustainable ...

An estimated 1 trillion species of microorganisms reside on Earth, yet scientists have been able to study less than two ...

Microrobots could be precisely directed, under clinical conditions, by integrating systems for navigation, therapeutic ...

Magnetic nanoparticles are made up of magnetic elements, including iron, nickel, cobalt, chromium, manganese, and gadolinium, as well as their chemical compounds. Over the last decade, there has been ...

Microrobots navigating bloodstream to reach and treat clots show 95 % success in lab tests, potentially transforming stroke ...

Boosting the function of natural killer cells with magnetic nanoparticles could make cancer immunotherapy more efficient, according to a Northwestern Medicine study published in ACS Nano. This method ...

Researchers at ETH Zurich have developed microrobots that use magnets to navigate to blood clots and deploy drugs to dissolve ...

Lithuanian researchers at the Center for Physical Sciences and Technology (FTMC), Habil. Dr. Gediminas Niaura and Dr.

The microrobot is capable of transporting various types of medication and dissolves to release its cargo at its destination.

A new microrobot system uses magnetic steering and drug-filled capsules to deliver stroke medicine directly to a clot.