Deep-learning model predicts how fruit flies form, cell by cell
The approach could apply to more complex tissues and organs, helping researchers to identify early signs of disease.
MIT HEALS leadership charts a bold path for convergence in health and life sciences
Angela Koehler, Iain Cheeseman, and Katharina Ribbeck are shaping the collaborative as a platform for transformative research, translation, and talent development across MIT.
Enabling small language models to solve complex reasoning tasks
The “self-steering” DisCIPL system directs small models to work together on tasks with constraints, like itinerary planning and budgeting.
New MIT program to train military leaders for the AI age
The new certificate program will equip naval officers with skills needed to solve the military’s hardest problems.
A better DNA material for genetic medicine
With its circular single-stranded DNA molecules, MIT spinout Kano Therapeutics plans to make gene and cell therapies safer and more effective.
Making clean energy investments more successful
Tools for forecasting and modeling technological improvements and the impacts of policy decisions can result in more effective and impactful decision-making.
New method improves the reliability of statistical estimations
The technique can help scientists in economics, public health, and other fields understand whether to trust the results of their experiments.
MIT researchers find new immunotherapeutic targets for glioblastoma
A study profiling antigens presented on immune and tumor cells in co-culture points to new strategies for attacking a treatment-resistant and deadly brain cancer.
A new way to deliver antibodies could make treatment much easier for patients
Therapeutic antibodies packaged into microparticles could be injected with a standard syringe, avoiding the need for lengthy and often uncomfortable infusions.
A new approach to carbon capture could slash costs
Chemical engineers have found a simple way to make capturing carbon emissions from industrial plants more energy-efficient.
New materials could boost the energy efficiency of microelectronics
By stacking multiple active components based on new materials on the back end of a computer chip, this new approach reduces the amount of energy wasted during computation.
Vine-inspired robotic gripper gently lifts heavy and fragile objects
The new design could be adapted to assist the elderly, sort warehouse products, or unload heavy cargo.
Jennifer Lewis ScD ’91: “Can we make tissues that are made from you, for you?”
In the 2025 Dresselhaus Lecture, the materials scientist describes her work 3D printing soft materials ranging from robots to human tissues.
Resurrecting an MIT “learning by doing” tradition: NEET scholars install solar-powered charging station
The project was designed and built with novel “bio-composite” materials developed by the student team.
Pompeii offers insights into ancient Roman building technology
MIT researchers analyzed a recently discovered ancient construction site to shed new light on a material that has endured for thousands of years.