Senior author Patrick Mercier (left), a professor in the Department of Electrical and Computer Engineering, and first author Zixiao Lin, an electrical engineering Ph.D. student, both of UC San Diego, ...

Researchers at University of California San Diego (UC San Diego) and CEA-Leti have unveiled a groundbreaking microactuator driving system, combining innovative solid-state battery technology with ...

A sponge absorbing water from the air does not at first appear to be a promising powerplant for a microactuator, let alone one that could rival the speed and power of our own muscle. A research group ...

A pulse of laser light can induce the microactuator to flex. In this microscope image, a palm-like array of actuators flex one at a time (top panel) or all at once (middle panel). The lower panel ...

Berkeley, Calif., Dec. 2012—Researchers with the U.S. Department of Energy (DOE)'s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California, Berkeley, have developed an ...

With a height of 1.83 mm, it is 25% thinner than its predecessor. It supports heads that read and write information on discs in ultrathin 2.5-mm HDDs with larger storage capacities than flash ...

For micro and nano electro-mechanical systems (MNEMS), there are two physical principles lending themselves particularly well for being executed in thin-film technology: the electrostatic and the ...

An innovative circuit design could enable miniature devices, such as microdrones and other microrobotics, to be powered for longer periods of time while staying lightweight and compact. Using ...

A sponge absorbing water from the air does not at first appear to be a promising powerplant for a microactuator, let alone one that could rival the speed and power of our own muscle. A research group ...