New tool reveals how immune cells find their targets
MIT biological engineers have developed a simple way to identify B or T cells that interact with viral or bacterial proteins.
MIT biological engineers have developed a simple way to identify B or T cells that interact with viral or bacterial proteins.
A new analysis shows how milk-producing cells change over time in nursing mothers.
For individuals who communicate using a single switch, a new interface learns how they make selections, and then self-adjusts accordingly.
A new technique could enable a robot to manipulate squishy objects like pizza dough or soft materials like clothing.
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions.
Named after a goddess of the dawn, the Thesan simulation of the first billion years helps explain how radiation shaped the early universe.
These cells, located in the brain’s striatum, appear to help with decision-making that requires evaluating risks and benefits.
Scientists propose a new mechanism by which oxygen may have first built up in the atmosphere
Chemical engineers use neural networks to discover the properties of metal-organic frameworks, for catalysis and other applications.
Changes to a key ice flow equation could refine estimates of sea level rise.
Theories from cognitive science and psychology could help humans learn to collaborate with robots faster and more effectively, scientists find.
If wildfires become larger and more frequent, they might stall ozone recovery for years.
Discovery shows for the first time that multiferroic properties can exist in a two-dimensional material; could lead to more efficient magnetic memory devices.
Researchers demonstrate a method that safeguards a computer program’s secret information while enabling faster computation.
MIT neuroscientists have identified a population of neurons in the human brain that respond to singing but not other types of music.