Researchers decipher structure of promising battery materials
Family of compounds could someday be useful for fuel cells, supercapacitors, catalysts, and sensors.
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.
Physicist is recognized for his groundbreaking research on twistronics.
Physicist and Martin Luther King Jr. Scholar is examining the optical properties of semimetals to understand how light interacts with quantum materials.
Discovery could lead to new designs for improved and more sustainable materials inspired by nature.
With shimmering colors and twisting vines, the annual glass pumpkin patch moves online to adapt to the pandemic.
Normally an insulator, diamond becomes a metallic conductor when subjected to large strain in a new theoretical model.
Funds will support research on glaucoma through retinal biometrics and neural cell implantation therapy for spinal cord injury.
The single piece of glass produces crisp panoramic images.
Eight 2020 graduate fellows pursue diverse paths.
Undergraduates Aljazzy Alahmadi, Andrea Garcia, and Quynh Nguyen are sustaining the nuclear science and engineering research mission from around the world.