Research involves micro- and nano-electromechanical systems (MEMS and NEMS) for transducers, sensors and actuators with a newinterdisciplinaryinitiative in engineering for quantum technology applications. Active programs are also underway in nano and microscale characterization, design of materials and simulation. Atomic, nano and micro fabrication technologies and advanced packaging are strengths.
Micro/Nano Research Impact
Mechanical engineering professor asserts that “size matters” when it comes to microscale sensors and machines
Victor M. Bright of the Paul M. Rady Department of Mechanical Engineering will deliver his Distinguished Research Lecture “Microscale Sensors and Machines—Size Matters!” virtually on Tuesday, November 2 from 4–5 p.m. Read more
Ding lab aims to improve cancer-fighting immunotherapies with $1.8M grant
Professor Xiaoyun Ding recently earned a $1.8 million grant to help improve cancer-fighting tools and cut patient costs, exploring ways to streamline delivery of lifesaving treatments into immune cells. Read more
Researchers scale up tiny actuator inspired by muscle
Researchers at 鶹ѰBoulder are collaborating to develop a new kind of biocompatible actuator that contracts and relaxes in only one dimension, like muscles. Their research may one day enable soft machines to fully integrate with our bodies to deliver drugs, target tumors, or repair aging or dysfunctional tissue. Read more