¶¶Òõ¶ÌÊÓƵ

Assistant Professor Longji Cui and his team in the Cui Research Group have developed a new technology to turn thermal radiation into electricity in a way that literally teases the basic law of thermal physics. The group says their research has the potential to revolutionize manufacturing industries by increasing power generation without the need for high temperature heat sources or expensive materials.

¶¶Òõ¶ÌÊÓƵ Engineering has named the inaugural recipients of its Innovation and Entrepreneurship Fellows program, which supports faculty, postdoctoral researchers and graduate students in bringing research to market. The fellows, selected for their work in fields like robotics, biomedical devices and advanced materials, receive funding, mentorship and entrepreneurial support to accelerate commercialization.

Six years ago, Professor Mark Rentschler helped launch startup company Aspero Medical to develop a medical device used during endoscopy procedures. Today, with the help of a $4.5 million grant through the Anschutz Acceleration Initiative, Rentschler and his team are bringing two new medical devices to the market that have the potential to transform surgeries in the gastrointestinal region even further.

Associate Professor Xiaoyun Ding and his team in the Biomedical Microfluidics Laboratory (BMMLab) stumbled across an interesting anomaly during a cell sensing project that used different forms of acoustic waves to measure cell mechanics. The group discovered a new wave mode never seen before that can unlock a new level of cell manipulation capabilities.

Associate Research Professor Svenja Knappe is apart of a team of physicists and engineers studying quantum technology. In a novel study, the group has discovered a new way to measure the orientation of magnetic fields using atoms. Their findings could one day lead to the creation of new quantum sensors that can map the activity of the human brain or even help airplanes navigate the globe.

Research Professor John W. Daily has spent several decades studying combustion, including wildfire behavior and the technology used to track fires and predict where wildfires might turn. In this article by The Conversation, Daily explains this technology and how it may have been used in the recent LA fires to prevent greater catastrophe.

From July 2023 to June 2024, ¶¶Òõ¶ÌÊÓƵ Boulder helped to launch 35 new companies based on research at the university—a big tick up from the previous record of 20 companies in fiscal year 2021. Three of these startups were spun by ME professors Chunmei Ban, Gregory Whiting and Svenja Knappe. Take a look at how our faculty are using discoveries from the lab to make a difference in peoples’ lives.

Watch Jacob Segil, CEO of Afference and research professor in the Paul M. Rady Department of Mechanical Engineering, showcase a new piece of haptic technology in an episode of Freethink's Hard Reset docuseries that will "redraw the borders of reality."

Avalanche risk may be rising around the world, and as temperature patterns change, they may be more difficult to predict. Associate Professor Nathalie Vriend uses a technique in her lab called photoelasticity to study small-scale avalanches. In this article published by The Conversation, she explains what causes these innocent-looking snow slopes to collapse, and gives tips to help skiers survive if they encounter one.

First-year PhD student Nick Rovito has been named the winner of the Young Engineer Paper Competition at this year's International Mechanical Engineering Congress & Exposition (IMECE) held by the American Society of Mechanical Engineers. His novel research aims to answer two questions: why do stroke treatments fail, and how can we increase their efficacy in the future?