Tiny, wireless antennas use light to monitor cellular communication
As part of a high-resolution biosensing device without wires, the antennas could help researchers decode intricate electrical signals sent by cells.
As part of a high-resolution biosensing device without wires, the antennas could help researchers decode intricate electrical signals sent by cells.
Junior Katie Spivakovsky describes her path through New Engineering Education Transformation to biomedical research and beyond.
MIT graduate student earns top honors in Graduate and People’s Choice categories for her work on nutrient-stabilizing materials.
By snugly wrapping around neurons, these devices could help scientists probe subcellular regions of the brain, and might even help restore some brain function.
The 16th Annual Meeting of the Kendall Square Association honored community members for their work bringing impactful innovations to bear on humanity’s biggest challenges.
The innovations map the ocean floor and the brain, prevent heat stroke and cognitive injury, expand AI processing and quantum system capabilities, and introduce new fabrication approaches.
Professor Ellen Roche is creating the next generation of medical devices to help repair hearts, lungs, and other tissues.
MIT students who participated in the pilot program developed tools to rapidly screen for novel biosynthetic capabilities.
The award recognizes his contributions as director of MIT Lincoln Laboratory and as vice chair and chair of the Defense Science Board.
Twelve finalists participated in initiative and 2023-24 MIT-Royalty Pharma Prize Competition, designed to support female biotech pioneers.
Propelled by MIT mentors and colleagues, two Kavanaugh Fellows will spend a year getting their innovative technologies ready for the market.
Ashutosh Kumar, a materials science and engineering PhD student and MathWorks Fellow, applies his eclectic skills to studying the relationship between bacteria and cancer.
New modular, spring-like devices maximize the work of live muscle fibers so they can be harnessed to power biohybrid bots.
MIT spinout Strand Therapeutics has developed a new class of mRNA molecules that can sense where they are in the body, for more targeted and powerful treatments.
New MIT offering brings a multidisciplinary approach to tackling substance use disorder through biomedical device innovation.