Faculty
Researchers at CU ¶¶Òõ´«Ã½ÔÚÏß have developed virtual clinical trials for an artificial pancreas that could significantly improve treatments for those with Type 1 diabetes by tailoring medical devices and speeding up clinical trials.
Julie Korak’s research interests are broadly focused on water treatment engineering, spanning municipal drinking water, water reuse and industrial water treatment.
The third edition Principles of Sustainable Energy Systems textbook was published in September 2018, a collaboration between Emeritus Professor Frank Kreith, PhD alumnus Charles Kutscher and Professor Jana Milford.
Faculty at CU ¶¶Òõ´«Ã½ÔÚÏß are working toward widespread adoption and practical applications for the soft robotic HASEL actuators demonstrated here earlier this year, through a new $2 million award from the National Science Foundation.
A new campus wide initiative - the Quantum Explorations in Science & Technology seed grant program - aims to put CU ¶¶Òõ´«Ã½ÔÚÏß at the center of work being done on quantum.
A major climate change report released Friday by over a dozen U.S. federal agencies outlines the potential for significant economic and environmental damages in the coming years. The report included a chapter on the potential for impacts on roads, bridges and other infrastructure.
As you consider your strategies for finding the best Cyber Monday deals, remember that where there is connectivity, there is a need for security. That’s why CEAS, aka CU Engineering, is launching a new cybersecurity program.
Co-founded by Robert Erickson of electrical, computer and energy engineering and Kala Majeti of CU ¶¶Òõ´«Ã½ÔÚÏß’s Technology Transfer Office, BREK will use the grant funds to develop the world’s first compact 250 kilowatt (kW) solar string inverter.
Researchers at CU ¶¶Òõ´«Ã½ÔÚÏß have uncovered the statistical rules that govern how gigantic colonies of fire ants form bridges, ladders and floating rafts.
CU ¶¶Òõ´«Ã½ÔÚÏß engineers have developed a 3D printing technique that allows for localized control of an object’s firmness, opening up new biomedical avenues that could one day include artificial arteries and organ tissue.