Nicola Dell’s work in human-computer interaction improves computer security and privacy for victims of intimate partner violence, strengthens digital privacy in non-Western contexts, and informs technology that supports home health care workers.
Engineering professor Elaine Petro received an Air Force Office of Scientific Research Young Investigator Program Award to research spacecraft propellants.
Murray McBride, a soil and crop scientist who studies the behavior of soil and water contaminants, comments on the repercussions of the train derailment in East Palestine, Ohio, and the need for farmers and residents to test soils and water.
Cornell nutrition expert Angela Odoms-Young will serve as the vice chair of the national 2025 Dietary Guidelines Advisory Committee, which will review scientific evidence regarding federal nutrition programs and policies and provide nutritional guidelines for all Americans.
First-of-their-kind observations reveal new details about melting at the grounding line of the vulnerable Thwaites Glacier that is contributing to its retreat and potentially to sea-level rise, according to Cornell researchers and international collaborators.
An experimental contraceptive drug candidate developed by Weill Cornell Medicine investigators temporarily stops sperm in their tracks and prevents pregnancies in preclinical models.
Stanford University’s Richard T. Ford delivered the annual lecture, focusing on the lack of difficult discussions on generations of race-based exclusion and exploitation.
Assistant professors Eshan Chattopadhyay, Debanjan Chowdhury, Andrew Musser, Angeline Pendergrass and Andrej Singer have won 2023 Sloan Research Fellowships from the Alfred P. Sloan Foundation.
Metal oxide nanoparticles – commonly used as food coloring and anti-caking agents in commercial ingredients – may damage parts of the human intestine, say Cornell and Binghamton University scientists.
Materials scientists at Cornell have developed a method for better understanding the complex electrochemical reactions that occur at the interface of water and metal surfaces – an approach that will ultimately lead to better fuel cells and other electrochemical technologies.
