Q&A: Transforming research through global collaborations
Josephine Carstensen and David McGee discuss the value and impact that MIT Global Seed Funds, which create synergistic partnerships between faculty and peers abroad, added to their research.
Josephine Carstensen and David McGee discuss the value and impact that MIT Global Seed Funds, which create synergistic partnerships between faculty and peers abroad, added to their research.
Professor oversaw department growth, strengthened community, and developed outreach programs.
Study shows how smart policies could address competing land-use needs.
Report aims to “ensure that open science practices are sustainable and that they contribute to the highest quality research.”
By examining antigen architectures, MIT researchers built a therapeutic cancer vaccine that may improve tumor response to immune checkpoint blockade treatments.
The method could help communities visualize and prepare for approaching storms.
In a talk at MIT, White House science advisor Arati Prabhakar outlined challenges in medicine, climate, and AI, while expressing resolve to tackle hard problems.
The MIT sophomore and award-winning memory champion explains what these competitions are all about and why you might want to build a “memory palace.”
New research reveals what it takes for a protein that is best known for protecting cells against death to take on the opposite role.
New work suggests the ability to create fractionalized electrons known as non-Abelian anyons without a magnetic field, opening new possibilities for basic research and future applications.
Physicists surprised to discover electrons in pentalayer graphene can exhibit fractional charge. New study suggests how this could work.
Yiming Chen ’24, Wilhem Hector, Anushka Nair, and David Oluigbo will start postgraduate studies at Oxford next fall.
Using fMRI, the research team identified 24 networks that perform specific functions within the brain’s cerebral cortex.
A weak magnetic field likely pulled matter inward to form the outer planetary bodies, from Jupiter to Neptune.
A new design tool uses UV and RGB lights to change the color and textures of everyday objects. The system could enable surfaces to display dynamic patterns, such as health data and fashion designs.