Controlling drug activity with light
Miniaturized device activates drugs in a small region deep within the brain.
Miniaturized device activates drugs in a small region deep within the brain.
A quantum effect in topological semimetals demonstrated by MIT researchers could allow for the utilization of an untapped energy source.
For senior Danielle Grey-Stewart, a pivotal experience away from campus led to a new sense of purpose at MIT.
System uses machine learning to analyze boundaries between crystal grains, allowing for selection of desired properties in a new metal.
Once deemed suitable only for high-speed communication systems, an alloy called InGaAs might one day rival silicon in high-performance computing.
The MISTI Career Conversations: Energy program serves as an innovative pivot from international internships to a virtual seminar series.
The MIT Energy Club hosts its sixth annual EnergyHack with 260 participants joining in from around the globe in this all-virtual event.
Diagnosing liver damage earlier could help to prevent liver failure in many patients.
Fabric samples are headed to the International Space Station for resiliency testing; possible applications include cosmic dust detectors or spacesuit smart skins.
Family of compounds could someday be useful for fuel cells, supercapacitors, catalysts, and sensors.
In a new realm of materials, PhD student Thanh Nguyen uses neutrons to hunt for exotic properties that could power real-world applications.
Gelatin-based microcarriers offer higher yield and scalability compared to existing commercial microcarriers.
Podcast from MIT OpenCourseWare showcasing the Institute’s inspiring instructors and their courses enters second season.
Inspired by camel fur, a new two-layered material could provide extended cooling to preserve the freshness of perishable goods.
MIT Energy Fellow David Fischer irradiates high-temperature superconducting tape to test its resilience and prepare for the first pilot fusion plant.