A new vaccine approach could help combat future coronavirus pandemics
The nanoparticle-based vaccine shows promise against many variants of SARS-CoV-2, as well as related sarbecoviruses that could jump to humans.
Department
Chemistry
Student Program for Innovation in Science and Engineering is a launching pad toward possibility
Gifted Caribbean high schoolers become SPISE alumni at MIT, and many go on to advanced academic and professional careers.
Artifacts from a half-century of cancer research
Ten objects on display in the Koch Institute Public Galleries offer uncommon insights into the people and progress of MIT's cancer research community.
Troy Van Voorhis to step down as department head of chemistry
Professor oversaw department growth, strengthened community, and developed outreach programs.
Startup gives surgeons a real-time view of breast cancer during surgery
The drug-device combination developed by MIT spinout Lumicell is poised to reduce repeat surgeries and ensure more complete tumor removal.
MIT Schwarzman College of Computing launches postdoctoral program to advance AI across disciplines
The new Tayebati Postdoctoral Fellowship Program will support leading postdocs to bring cutting-edge AI to bear on research in scientific discovery or music.
Scientists discover molecules that store much of the carbon in space
The discovery of pyrene derivatives in a distant interstellar cloud may help to reveal how our own solar system formed.
A new framework to efficiently screen drugs
Novel method to scale phenotypic drug screening drastically reduces the number of input samples, costs, and labor required to execute a screen.
A new method makes high-resolution imaging more accessible
Labs that can’t afford expensive super-resolution microscopes could use a new expansion technique to image nanoscale structures inside cells.
Translating MIT research into real-world results
MIT’s innovation and entrepreneurship system helps launch water, food, and ag startups with social and economic benefits.
AI model can reveal the structures of crystalline materials
By analyzing X-ray crystallography data, the model could help researchers develop new materials for many applications, including batteries and magnets.
A new way to reprogram immune cells and direct them toward anti-tumor immunity
MIT scientists’ discovery yields a potent immune response, could be used to develop a potential tumor vaccine.
MIT chemists explain why dinosaur collagen may have survived for millions of years
The researchers identified an atomic-level interaction that prevents peptide bonds from being broken down by water.
Engineering proteins to treat cancer
PhD student Oscar Molina seeks new ways to assemble proteins into targeted cancer therapies, while also encouraging his fellow first-generation graduate students.
MIT chemists synthesize plant-derived molecules that hold potential as pharmaceuticals
Large multi-ring-containing molecules known as oligocyclotryptamines have never been produced in the lab until now.