Squeezing cells to cure diseases
Startup SQZ Biotech aims to open a new path in immunotherapy with its cell-compressing technique.
Startup SQZ Biotech aims to open a new path in immunotherapy with its cell-compressing technique.
A grad student's research project unexpectedly yields a spooky message made from millions of carbon nanotubes.
Fibers containing systems for mixing, separating, and testing fluids may open up new possibilities for medical screening.
Method boosts differentiation of stem cells into mature blood cell types, may help leukemia and lymphoma patients.
Tiny device could replace expensive lab-scale equipment for many applications.
Faculty members recognized for excellence via a diverse array of honors, grants, and prizes over the last quarter.
Professor Yoel Fink is helping MIT lead the way in transforming the fabric materials in our lives.
Efficient method for making single-atom-thick, wafer-scale materials opens up opportunities in flexible electronics.
Prizes went to solutions for improving water filtration systems, metal fatigue resistance, and boron production.
Taking a page from green plants, new polymer “grows” through a chemical reaction with carbon dioxide.
Fabrication technique could be integrated into manufacturing to make large-scale membranes.
Cost-effective method produces semiconducting films from materials that outperform silicon.
With an MIT alumnus and four professors among its co-founders, Desktop Metal is pushing the boundaries of metal 3-D printing.
PhD student designs materials that help guide light within silicon chips, and seeks to advance materials science in her home country of Bangladesh.
U.S. Department of Energy grant will support the Allanore lab's advancement of copper production from sulfur-based minerals.