Text2Robot is a new platform that leverages generative AI to design and deliver functional robots with just a few words. You won't believe the results it delivers.
Duke has launched a new Master of Engineering in Robotics & Autonomy program for aspiring technology leaders. See how its unique approach will provide a solid foundation for students to immediately enter industry as full-stack roboticists.
Most engineering students must learn the basics of statics and dynamics. Find out how guiding them through the process of "discovering" the underlying principles for the first time helps students solidify these fundamental concepts.
Wearable technology is a treasure trove of useful data for health applications. See how Duke is creating versions that go beyond just tracking your steps, for everything from pregnancy to sleep patterns.
Incorporating weak bonds that lay the groundwork for new networks allows tougher double-network hydrogels that recover from damage fast enough to withstand extreme loads. Come see just how far they can be pushed.
Duke is betting on itself with seed funding aimed at providing the fundamental understanding of solid-state sodium-ion batteries. Find out why our researchers think they could make them the future's preferred power source.
Turning delicate materials into glass can be a tricky proposition. See how Duke's Flash Differential Scanning Calorimeter is opening new opportunities for a glass version of a promising solar material.
Duke's graduate programs in materials science and mechanical engineering both broke the top 25 in this year's U.S. News & World Report rankings! Find out how high our programs are climbing.
This spring brought a wide range of awards to our faculty from the election of Fellows to the AIAA and the MRS to the Washburn Early Educator award at the ASEE. Scroll through the full list!
Graduating MEMS senior Izzy Dudlyke has combined Duke's strengths in engineering and the liberal arts to pursue her dream of working on movie sets and entertainment projects. Come see her talents for yourself.
Duke MEMS capstone design projects give our graduating seniors a chance to draw from everything they've learned while at Duke to create real-world devices for real-world clients. Find out what all of these creative engineering projects do!
“Natural surroundings like the forest enable the development of systems that function effectively in real-world, outdoor settings, bringing us closer to actual deployable solutions.”
