Selecting a site will automatically redirect you to the site's homepage.
William B. Streett, who was recognized for changing the culture of undergraduate studies as dean of Cornell Engineering, died Feb. 5 in Cincinnati. He was 92.
Researchers studying large-scale artificial intelligence, microbial biomanufacturing and causal inference methods are among the Cornell researchers who recently received National Science Foundation Faculty Early Career Development Awards.
For the first time in Cornell Engineering’s history, every school and department currently has, or will soon have, a woman faculty member on the college’s executive leadership team. The milestone comes as the college celebrates the 140th anniversary of its first woman engineer.
A new study calculated renewable energy projects' potential to profit from bitcoin mining during the precommercial development phase, when a wind or solar farm is generating electricity, but has not yet been integrated into the grid.
The CATALYST Academy engineering program at Cornell teamed up with CROPPS to discover how engineering and technology play major roles in plant science and agriculture.
Depending on lifestyle choices and work arrangements, remote workers can have a 54% lower carbon footprint compared with onsite workers, according to a new study by Cornell and Microsoft.
CROPPS is partnering with Molly Edwards, the scientist and communicator behind Science IRL, on a series of videos that elucidate the center's groundbreaking research on communicating with plants.
From exploring the mechanics of early-stage bone metastasis to analyzing price formation policies in wholesale electricity markets, Cornell Engineering’s Sprout Awards are funding unique research projects with the potential to grow partnerships across Cornell.
Cornell researchers developed a multimodal platform to image microbe-semiconductor biohybrids with single-cell resolution, to better understand how they can be optimized for more efficient energy conversion.
An interdisciplinary research team received a five-year, $2 million grant from the National Science Foundation to develop a new generation of biosynthetic lubricants that have the potential to treat arthritis and reduce the painful friction of artificial joints.
