Using a Cornell-built instrument and Cornell-built high-speed detector, a team of researchers captured atomically thin materials responding to light with a dynamic twisting motion.
Researchers used single-molecule super-resolution reaction imaging to gain a clearer view of what happens, and where, in surface metal-hydrogen intermediates, which spark electrocatalytic transformations.
Tianyi Chen is pushing the boundaries of artificial intelligence by asking a pressing question: What if AI could be engineered not just to optimize for a single outcome, but to make smarter, more balanced decisions — much like humans do?
Cornell researchers and collaborators have developed a neural implant so small that it can rest on a grain of salt, yet it can wirelessly transmit brain activity data in a living animal for more than a year.
Researchers are using 3D printing to custom build high-efficiency, low-cost electric rockets that, combined with novel propellants, will keep small satellites in low Earth orbit.
Cornell graduate students Nicole Verboncoeur and Jake Parsons earned 1st and 2nd Prize awards at SRF2025 in Tokyo for outstanding research in superconducting radio-frequency technology.
Cornell historian Corey Earle shared stories of remarkable women throughout Cornell’s history during an Oct. 25 brunch as part of the Trustee Council Annual Meeting.
Cornell physicist Brad Ramshaw has been named a 2025 Experimental Physics Investigator – national recognition awarded by the Gordon and Betty Moore Foundation to a select group of researchers pushing the boundaries of experimental physics.
Researchers used advanced data analytics to create a state-by-state look at that environmental impact of the AI boom and how to make the computing infrastructure that supports it more sustainable.