Showing News articles tagged with Engineering the human-technology interface
- Tufts researchers led a team in developing an electronic wound dressing an electronic wound dressing that enables active topical drug delivery, with applications for chronic wound care.
- In the journal Advanced Energy Materials, Associate Professor Matthew Panzer and alumnus Anthony D'Angelo, EG18, published findings on a new class of fully zwitterionic polymer-supported gel electrolytes that could lead to safer lithium batteries.
- Research from the Department of Electrical and Computer Engineering on a new "smart bandage" was recently featured on the NIH Director's Blog.
- Professor Karen Panetta explains the possibilities and challenges of developing new technologies to assist with diagnosing and treating medical conditions.
- A group of Tufts researchers created materials that move in response to light, leading to possible applications for solar-powered products.
As a Summer Scholar, Computer Science student Faizan Muhammad, E20, is working with Assistant Professor Jivko Sinapov on a research investigation into robotics and augmented reality.
- Assistant Professor Xiaocheng Jiang and a group of Tufts researchers examined new developments in support extracellular electron transfer (EET) processes, which could have applications in renewable energy conversion and bioelectronics.
- Associate Professor Mark Hempstead investigates the history of microprocessor hardware and the future of secure microchips in a piece for The Conversation.
- Susan Landau, Bridge Professor in cyber security and policy at the School of Engineering and the Fletcher School, explains how maintaining digital privacy can help secure your online presence.
- A team of researchers led by Tufts faculty and alumni have created a prototype of a "smart" bandage that can monitor the conditions of a wound and deliver drug treatment.