Can the world meet global climate targets without coordinated global action?
Growing demand for an energy transition could move the needle, but not far enough.
Growing demand for an energy transition could move the needle, but not far enough.
Researchers surveyed 100 high-performing companies to determine which of them are leading adopters of machine intelligence and data analytics, and how they succeed.
A new technique boosts models’ ability to reduce bias, even if the dataset used to train the model is unbalanced.
If wildfires become larger and more frequent, they might stall ozone recovery for years.
SMART researchers find explanation for why some patients might experience diarrhea after taking amoxicillin-clavulanate.
Experiments aboard International Space Station demonstrate a potential solution for cleaning up orbital debris and repairing damaged satellites.
Researchers in the Department of Chemistry have developed a groundbreaking new method for transforming alkenes into their different isomers.
A new machine-learning technique could pinpoint potential power grid failures or cascading traffic bottlenecks in real time.
Research scientist Alex Tinguely oversees an antenna diagnostic used on the U.K.’s record-breaking fusion experiment.
A new methodology simulates counterfactual, time-varying, and dynamic treatment strategies, allowing doctors to choose the best course of action.
The material could replace rare metals and lead to more economical production of carbon-neutral fuels.
Improvements in the material that converts X-rays into light, for medical or industrial images, could allow a tenfold signal enhancement.
A new strategy for producing a natural compound could also be used to generate variants with even stronger antimicrobial activity.
MIT senior Daniel Zhang aims to provide hope for young patients and support to young students.
State-of-the-art analysis of brain images from nearly 700 children has turned up surprisingly few links between white matter structure and reading ability.