Life Sciences Supermind Report outlines proposed solutions to re-imagine the global health ecosystem
Collective intelligence methodology identifies key findings to accelerate the pace of innovation and build health resilience.
Collective intelligence methodology identifies key findings to accelerate the pace of innovation and build health resilience.
New MITEI consortium focuses on speeding the energy transition, engaging with industrial leaders to deploy clean energy advances at scale.
Scientists demonstrate that AI-risk models, paired with AI-designed screening policies, can offer significant and equitable improvements to cancer screening.
A program within MIT Corporate Relations has become the largest university-based platform for startups to connect with corporations.
MIT researchers are testing a simplified turbulence theory’s ability to model complex plasma phenomena using a novel machine-learning technique.
Five new state and local government partners will work with J-PAL North America to develop rigorous evaluations of policies and programs related to environment, education, economic security, and housing stability.
Since 2014, MIT Outing Club members — new and advanced outdoor enthusiasts — come together for its annual School of Rock, a weekend program teaching and advancing outdoor rock-climbing skills.
Combining computer science, data science, and economics, Course 6-14 prepares students to address thorny quandaries in many fields.
The Raman spectroscopy-based method enables early detection and quantification of pathogens in plants, to enhance plant disease management.
MIT visiting scholar is motivated by foundational science at the edges of the periodic table.
Professor Fotini Christia is part of a team examining the challenges of implementing community policing across a range of countries.
Houston discusses leading the company through the pandemic in a fireside chat hosted by the MIT Schwarzman College of Computing.
Paper-based blood test developed by SMART researchers can rapidly determine the presence of SARS-CoV-2 neutralizing antibodies.
A life-detecting radar, a microscale motor, and a quantum network architecture are among this year's most innovative new technologies.
By incorporating the scattering of RF waves into fusion simulations, MIT physicists improve heating and current drive predictions for fusion plasmas.