The $1.7 million grant will help scientists with expertise in artificial intelligence and machine learning to address complex biomedical challenges in nutrition and health.
A team in Cornell Engineering created a new lithium battery that can charge in under five minutes – faster than any such battery on the market – while maintaining stable performance over extended cycles of charging and discharging.
Researchers have derived a formula that predicts the effects of environmental noise on quantum information – an advancement crucial for designing and building quantum computers capable of working in an imperfect world.
Organizers added a strikethrough to the conference name this year, recognizing that the word “frontier” is rooted in a history of white-settler colonialism.
For Cornell scientists, new images from NASA’s Juno spacecraft flyby Sept. 29 of Jupiter’s moon Europa – an icy, oceanic world that may host life – brings future mission into frigid focus.
Cornell scientists have replaced the harsh chemical processing of rare earth elements – used to power electric cars, wind turbines and smartphones – with a benign practice called biosorption.
Researchers developed a method to efficiently engineer intricate nanostructures through a form of phase separation – a process akin to the way water and oil uncouple in salad dressing.
Cornell biologists report that fruit flies’ visual system, not just chemical receptors, is deeply involved in their social behaviors, which sheds light on the possible origin of differences in human social behaviors, such as those seen in people with autism.
Using low-frequency radio waves to send blood pressure data, a group of students has provided a proof of concept that could enable in-home health care for people without cellular or broadband access.