Two faculty members from Weill Cornell Medicine and one from the College of Veterinary Medicine have been elected to the National Academy of Medicine, one of the highest honors in the fields of health and medicine.
For more than 30 years, the Cornell Food Venture Center (CFVC) has helped entrepreneurs transform family recipes and homemade eats into successful commercial food products. Now, a new online program from Cornell is expanding access to the CFCV’s expertise and supporting the growth of food entrepreneurs around the globe.
The fourth annual Grow-NY Summit will bring food and ag startups and industry players together at the Syracuse Oncenter on Nov. 15-16, spotlighting the spaces where farms and food, innovation and sustainability overlap.
The startups vying for $3 million in prize money at this year’s Grow-NY Food and Agriculture Competition aren’t just bringing revolutionary innovations to market, and working to solve the problems confronting agri-food systems – winners are required to make a positive impact on the region, too.
A new all-dry polymerization technique uses reactive vapors to create thin films with enhanced properties that could lead to improved polymer coatings for microelectronics, advanced batteries and therapeutics.
Scientists at Weill Cornell Medicine in Qatar have created an intricate molecular map of the human body and its complex physiological processes based on the analysis of thousands of molecules in blood, urine and saliva samples from 391 volunteers.
A mathematician and public policy expert who has advised numerous U.S. states on redistricting and whose lab has been at the forefront of an emerging discipline that merges data science and elections has joined Cornell as a member of the Brooks School faculty, the Department of Mathematics in the College of Arts and Sciences and is affiliated with the Center for Data Science for Enterprise and Society as part of the provost’s Data Science Radical Collaboration initiative.
A Cornell analysis finds telescopes could better detect potential chemical signatures of life in an Earth-like exoplanet that more closely resembles the age the dinosaurs inhabited than the one we know today.