With help from a small transistor, a team of researchers led by Professor Fengnian Xia figured out a way to make a type of ...
This review examines how programmable DNA nanostructures may support stroke repair by enabling targeted delivery, ...
A newly developed material can control and "program" heat, allowing it to direct thermal radiation, switch modes, and ...
As genome editing therapies move through clinical trials to regulatory approval, scientists continue the quest for the holy ...
Metals possess the unique ability to trap and concentrate light into spaces much smaller than its wavelength through a ...
A newly found chain-reaction phase change in 2D MoTe2 lowers energy barriers, enabling faster control of electronic and ...
Over the past few decades, engineers have developed various devices that can create holograms, three-dimensional (3D) or ...
Synthetic cell SpudCell, the first built from non-living components by University of Minnesota synthetic biologists Kate ...
In pharmaceutical manufacturing, bulk material handling optimization is often overlooked, with many assuming changes to their current setup will not have enough impact to justify the cost. But is that ...
Harvesting, storing, and using energy typically require separate materials or devices, making renewable energy systems more complex and less adaptable. This reusable ...
With running more popular than ever, production of running shoes has reached a new level. Global footwear manufacturing has increased significantly over the last 15 years, and the industry itself has ...
This is a summary of a story that originally appeared on the Pratt School of Engineering. Mechanical engineers at Duke University have made a breakthrough in programmable materials that can be ...
Some results have been hidden because they may be inaccessible to you
Show inaccessible results