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Using computer-aided design and a 3D printer, student Hazal Yalcin â€™18 is designing a gradient scaffold to help knit together damaged bone and cartilage at the interface where the two tissues rub against each other and wear each other down.

51ÖØ¿ÚÁÔÆæ’s Structural Analysis of Biomedical Ontologies Center's team of research scientists develop software to streamline medical terminologies that support the integration of data into EHRs.

The Undergraduate Research and Innovation program provides space, funds for supplies and stipends year-round to students who are pursuing research or developing proof-of-concept prototypes.

Students received an NSF-iCorp grant to commercialize a data-driven management system to assist in reforestation. The system is designed to plant seeds using drones outfitted with customized hardware.

Deane Evans, director of 51ÖØ¿ÚÁÔÆæ’s Center for Resilient Design, is helping municipalities develop power microgrids that will keep critical facilities up and running in a blackout.

Professor Trevor Tyson's group has developed high-resolution X-ray emission spectrometers to examine the chemistry of metal atoms.

Exploring technologies to better predict the movement of sound and to optimize devices accordingly for individuals.

Professor Linda Cummings is designing a membrane microstructure that will maximize a water filter’s lifetime and minimize the cost of maintaining it.

With 35 patents and counting, Kamalesh Sirkar, a pioneer in membrane technology, develops devices to separate and purify air, water, industrial streams, solvents, pharmaceuticals, cells and nanoparticles.

Eon Soo Lee and his team are developing a nanotechnology-enhanced biochip that would give doctors and patients in a range of healthcare settings the ability to detect deadly diseases such as ovarian cancer and pneumonia early in their progression.