A new way to remove contaminants from nuclear wastewater
Method concentrates radionuclides in a small portion of a nuclear plant’s wastewater, allowing the rest to be recycled.
Method concentrates radionuclides in a small portion of a nuclear plant’s wastewater, allowing the rest to be recycled.
Specialized invisible dye, delivered along with a vaccine, could enable “on-patient” storage of vaccination history to save lives in regions where paper or digital records aren’t available.
Mechanical engineers rush to develop energy conversion and storage technologies from renewable sources such as wind, wave, solar, and thermal.
“Micromechanics informed alloy design: Overcoming scale-transition challenges” focuses on bridging scale gaps.
Using specialized liver cells, a new test can quickly detect potentially cancer-causing DNA damage.
Following a successful project creating bricks from pulp plant waste in northern India, Elsa Olivetti is looking for ways to repurpose slag produced by the metals industry.
MIT wins $5 million grant to develop a virtual lab that will prepare students for jobs in industry and government.
A J-WAFS connection brings together two MIT research teams helping to advance irrigation in sub-Saharan Africa.
Student projects presented at the annual MIT event range from beekeeping safety to custom cosmetics.
Objects are posed in varied positions and shot at odd angles to spur new AI techniques.
Thomas Kochan, Julie Shah, and Evelyn Wang honored by graduate students as "Committed to Caring."
A novel experimental facility integrates automation and active learning, illuminating a path to accelerated scientific discovery.
Talya Klinger and Steven Truong will begin graduate studies in the UK next fall.
In 8.02 (Electricity and Magnetism), students explore the practical application of electromagnetic concepts.
Startup co-founded by alumna Suelin Chen helps people share their end-of-life wishes with loved ones.