The Shimadzu Institute for Research Technologies, the College of Business, the College of Engineering, the College of Science and TechFW through TechFW@UTA are collaborating on The StartUp Lounge, a place where budding entrepreneurs can meet and seek guidance.
A UT Arlington-inspired business has created a new power generator that could bring electricity to so many areas of the world who live beyond the grid. The team is competing in the AMSE ISHOW contest to win funding for its revolutionary idea. See the news release to vote daily for the team.
National Academy of Sciences member David Nygren will join UT Arlington's Physics Department
this fall. He is widely known for inventing the “Time Projection Chamber” and current work investigating neutrinos.
Researchers are leading a collaborative NSF project to protect personal, electronic healthcare data while ensuring that the anonymous records can be used for secondary analysis and improved health care.
The University of Texas at Arlington and TechFW, a Fort Worth-based technology startup initiative, have agreed to a multi-year partnership to commercialize University research and move innovation to the marketplace.
A UT Arlington associate professor is working with the American Heart Association on a new method that could use injected nanoparticles to recruit stem cells from the patient’s own blood to build needed stents in a patient’s failing blood vessels.
The National Science Foundation has awarded a $400,000 Early Career Development grant to Fuqiang Liu, an assistant professor of materials science and engineering, to improve the way solar energy is captured, stored and transmitted for use.
The Society of Automotive Engineers Internatonal has honored UT Arlington engineering professor Bob Woods, the longtime adviser to the University’s Formula SAE racing team, with its annual Excellence in Engineering Education Award.
A UT Arlington mechanical engineer has been honored by the National Science Foundation with a $400,000 Early Career Development grant to support her work with microfluidic devices, which promise to improve 3D tissue and cell sample analyses.
A UT Arlington bioengineering researcher has teamed with a UT Southwestern colleague to develop a nanoparticle drug delivery system that will help stimulate lung growth and function after partial lung removal or destructive lung disease.
Two UT Arlington engineers will use a new Bill & Melinda Gates Foundation grant to update an ancient method of evaporation to cool vaccines and medicine that must be shipped to remote parts of the world without ready access to electricity.