An interdisciplinary Cornell team has identified a new mechanism regulating tumor growth in the skeleton, the primary site of breast cancer metastasis: mineralization of the bone matrix.
New Cornell research shows the metaverse – a virtual 3D environment in which the physical and digital worlds converge – could have environmental benefits: lowering the global surface temperature by up to 0.02 degrees Celsius before the end of the century.
Cornell researchers used magnetic imaging to obtain the first direct visualization of how electrons flow in quantum anomalous Hall insulators, and by doing so they discovered the transport current moves through the interior of the material.
Researchers combined soft microactuators with high-energy-density chemical fuel to create an insect-scale quadrupedal robot that is powered by combustion and can outperform its electric-driven competitors.
The Kessler Fellows program has welcomed a record 20 students to its 2023 cohort. The group will spend the spring semester learning entrepreneurial basics in preparation for a fully funded summer internship at a startup.
As automobile electrification speeds up, the world faces a need for critical metals to make these vehicles possible, with high demand setting off economic snags and supply-chain hitches.
Cornell faculty have until Friday, Dec. 11, to submit nominations for the A.D. White Professors-at-Large Program, specifically in the areas of humanities, life sciences and physical sciences.
A new method for analyzing protein crystals – developed by Cornell researchers and given a funky two-part name – could open up applications for new drug discovery and other areas of biotechnology and biochemistry.
In a first-of-its-kind analysis, Cornell researchers and partners at the Clinton Health Access Initiative found that pharmaceutical producers could reduce their environmental impact by roughly half by optimizing manufacturing processes and supply chain networks and by switching to renewable energy sources.