At their spring banquet, students in the Robert S. Harrison College Scholar Program hear from a speaker who helps foster creative and critical thinking skills.
By finding the atomic equivalent of a perfect handshake between two types of perovskite, researchers at Cornell have built solar cells that are not only high-performing, but exceptionally durable.
The software company is contributing $2 million each to Cornell’s College of Architecture, Art and Planning and Cornell Engineering to name and update “design and make” spaces.
Cornell geochemists and synthetic biologists have collaborated to improve the efficiency of microbes that can dissolve rocks to extract critical minerals while speeding carbon sequestration from air.
Cornell researchers created a machine learning-based model that can forecast, with greater accuracy than current methods, the impact severe wildfire conditions will have on solar electricity generation.
Researchers developed an inexpensive and potentially scalable approach to bind together a pair of popular but incompatible polymers, thereby creating a more useful, high-quality plastic recycling additive.
The Southern Ocean – between Antarctica and other continents – will eventually release heat absorbed from the atmosphere, leading to projected long-term increases in precipitation over East Asia and the Western U.S.
Cornell researchers are helping upgrade the CMS detector at CERN, as LHC collaborations win the 2024 Breakthrough Prize for fundamental physics discoveries.
A simulator - with real, hovering spacecraft - would have allowed researchers, companies and government agencies to test crucial space technologies, but a stop-work order from the federal government has halted construction.