Cornell and Paleontological Research Institution scientists dug into the Colorado River's estuary mudflats to learn how upstream dams affect downstream mollusks.
A Cornell startup is working with the Performance Apparel Design Lab to take its wearable sensor technology, which can track the movement of athletes, and use it to monitor pilots undergoing high-gravitational-force training.
Cornell researchers have demonstrated a technique for writing, erasing and rewriting microscopic magnetic patterns – think the world's tiniest Etch A Sketch – that could advance research into ultrafast computer memory.
By examining data from the Cassini spacecraft’s last close encounter with Saturn’s moon Titan, scientists have found that its methane-filled lakes are up to 300 feet deep.
With a a three-year, $450,000 Young Investigator Award from the Air Force Office of Scientific Research, Francesco Monticone will develop and study exotic materials.
Cornell researchers have created a soft robot muscle that can regulate its temperature through sweating. This technology will enable untethered, high-powered robots to operate for long periods of time without overheating.
A new stretchable optical lace creates a linked sensory network that would enable robots to sense how they interact with their environment and adjust their actions accordingly.
The Cornell High Energy Synchrotron Source will create a new materials research subfacility, thanks to $7.1 million in funding from the Air Force Research Lab, to facilitate X-ray analysis of new and existing materials.
The strength of the attraction between molecules in two-dimensional materials, known as van der Waals forces, is dependent on the size of the empty spaces in the material, researchers have found.
Cornell Tech has announced a $1 million grant from The Atlantic Philanthropies to jumpstart its Public Interest Tech initiative. Aimed at developing the tools, systems, datasets, research and education needed to address significant public sector concerns.