MIT physicists find unexpected crystals of electrons in an ultrathin material
Rhombohedral graphene reveals new exotic interacting electron states.
Fiber computer allows apparel to run apps and “understand” the wearer
MIT researchers developed a fiber computer and networked several of them into a garment that learns to identify physical activities.
A protein from tiny tardigrades may help cancer patients tolerate radiation therapy
When scientists stimulated cells to produce a protein that helps “water bears” survive extreme environments, the tissue showed much less DNA damage after radiation treatment.
Study: Even after learning the right idea, humans and animals still seem to test other approaches
New research adds evidence that learning a successful strategy for approaching a task doesn’t prevent further exploration, even if doing so reduces performance.
High-speed videos show what happens when a droplet splashes into a pool
Findings may help predict how rain and irrigation systems launch particles and pathogens from watery surfaces, with implications for industry, agriculture, and public health.
3 Questions: Exploring the limits of carbon sequestration
Assistant Professor César Terrer discusses pioneering volcano research to track carbon dynamics in tropical forests.
AI system predicts protein fragments that can bind to or inhibit a target
FragFold, developed by MIT Biology researchers, is a computational method with potential for impact on biological research and therapeutic applications.
MIT biologists discover a new type of control over RNA splicing
They identified proteins that influence splicing of about half of all human introns, allowing for more complex types of gene regulation.
Rooftop panels, EV chargers, and smart thermostats could chip in to boost power grid resilience
MIT engineers propose a new “local electricity market” to tap into the power potential of homeowners’ grid-edge devices.
Chip-based system for terahertz waves could enable more efficient, sensitive electronics
Researchers developed a scalable, low-cost device that can generate high-power terahertz waves on a chip, without bulky silicon lenses.
Reducing carbon emissions from residential heating: A pathway forward
A new MIT study identifies steps that can lower not only emissions, but also costs, across the combined electric power and natural gas industries that now supply heating fuels.
J-WAFS: Supporting food and water research across MIT
For the past decade, the Abdul Latif Jameel Water and Food Systems Lab has strengthened MIT faculty efforts in water and food research and innovation.
Like human brains, large language models reason about diverse data in a general way
A new study shows LLMs represent different data types based on their underlying meaning and reason about data in their dominant language.
Unlocking the secrets of fusion’s core with AI-enhanced simulations
Fusion’s future depends on decoding plasma’s mysteries. Simulations can help keep research on track and reveal more efficient ways to generate fusion energy.
Engineers turn the body’s goo into new glue
They combined a blend of slimy and sticky proteins to produce a fast-acting, bacteria-blocking, waterproof adhesive for use in biomedical applications.