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Cornell is spearheading the New York Consortium for Space Technology Innovation and Development – a new initiative aimed at bolstering U.S. space technology research and manufacturing by uniting industry, academic and government partners.
From exploring the mechanics of early-stage bone metastasis to analyzing price formation policies in wholesale electricity markets, Cornell Engineering’s Sprout Awards are funding unique research projects with the potential to grow partnerships across Cornell.
Lena F. Kourkoutis, M.S. ’06, Ph.D. ’09, an associate professor in the School of Applied and Engineering Physics, who was internationally recognized for her advances in cryo-electron microscopy, died on June 24 at the age of 44 after living with colon cancer for two years.
Using a precisely tuned, ultrafast laser, a Cornell researcher showed that the atomic structure of yttrium titanate could be changed to stabilize its magnetism at temperatures three times higher than was previously possible.
A Cornell-led collaboration harnessed chemical reactions to make microscale origami machines self-fold – freeing them from the liquids in which they usually function, so they can operate in dry environments and at room temperature.
Cornell researchers have developed an optical neural network that can filter relevant information from a scene before the visual image is detected by a camera, a method that may make it possible to build faster, smaller and more energy-efficient image sensors.
A new study has changed where scientists think Nickelate's superconducting ability might originate, providing a blueprint for how more functional versions might be engineered in the future.
A model system created by stacking a pair of monolayer semiconductors is giving physicists a simpler way to study confounding quantum behavior.
Twelve Cornell and Weill Cornell Medicine faculty members – six of whom are also Cornell alumni – have been elected fellows of the American Association for the Advancement of Science, the world’s largest general scientific society.
A Cornell-led collaboration has for the first time used voltage to turn on and off a material’s crystal symmetry, thereby controlling its electronic, optical and other properties – a discovery that could have a profound impact on building future memory and logic devices.
