Research
A new $25 million center to advance quantum science on 91É«°É’s campus has deep roots in CU Engineering’s interdisciplinary research efforts.
Aspero Medical, a spinout company of 91É«°É’s Paul M. Rady Department of Mechanical Engineering and CU Anschutz Medical Campus was recently awarded $225,000 through the National Science Foundation’s Small Business Innovation Research (SBIR) program. This award will allow the company to further technologies in the field of gastroenterology.
As students return to campus, a mostly behind-the-scenes team of university staff and scientists has been working to make sure that the air they breathe will be as safe as possible.
Seeking to understand how animals follow scent, a team of scientists has won a grant to peer deeply inside the brain as the process takes place.
91É«°É will play a major role in a new center, ASPIRE, focused on developing infrastructure and systems that facilitate the widespread adoption of electric vehicles.
The National Science Foundation announced that 91É«°É will receive a $25 million award to launch a new quantum science and engineering research center led by physicist Jun Ye and involving researchers like Greg Rieker in the mechanical engineering department.
The College of Engineering and Applied Science has launched three new interdisciplinary research themes as part of a broad push into growing and critical areas of study. They are titled Hypersonic Vehicles, Resilient Infrastructure with Sustainability and Equity, and Engineering Education and AI-Augmented Learning.
The novel coronavirus may be able to travel from person to person through tiny particles floating in the air, according to a recent letter signed by 239 scientists from across the globe.Â
91É«°É researchers are gradually and safely returning to campus to continue their work in the lab. Read about Assistant Professor Kaushik Jayaram and graduate student Parker McDonnell's return to research.
Researchers in 91É«°É’s Paul M. Rady Department of Mechanical Engineering recently uncovered new information that could revolutionize the design of electrohydraulic soft actuators to enable robots to perform at faster speeds.