Why are some rocks on the moon highly magnetic? MIT scientists may have an answer
A large impact could have briefly amplified the moon’s weak magnetic field, creating a momentary spike that was recorded in some lunar rocks.
New research, data advance understanding of early planetary formation
Led by Assistant Professor Richard Teague, a team of international astronomers has released a collection of papers and public data furthering our understanding of planet formation.
A new approach could fractionate crude oil using much less energy
MIT researchers’ new membrane separates different types of fuel based on their molecular size, eliminating the need for energy-intensive crude oil distillation.
MIT physicists discover a new type of superconductor that’s also a magnet
The “one-of-a-kind” phenomenon was observed in ordinary graphite.
Study: Climate change may make it harder to reduce smog in some regions
Ground-level ozone in North America and Western Europe may become less sensitive to cutting NOx emissions. The opposite may occur in Northeast Asia.
AI learns how vision and sound are connected, without human intervention
This new machine-learning model can match corresponding audio and visual data, which could someday help robots interact in the real world.
Learning how to predict rare kinds of failures
Researchers are developing algorithms to predict failures when automation meets the real world in areas like air traffic scheduling or autonomous vehicles.
A new technology for extending the shelf life of produce
Researchers used microneedles to inject fresh-cut crops with melatonin and delay spoilage.
A cool new way to study gravity
A technique developed at MIT enables a new class of experiments that could finally let physicists test whether gravity needs to be described by quantum theory.
How to solve a bottleneck for CO2 capture and conversion
Today’s carbon capture systems suffer a tradeoff between efficient capture and release, but a new approach developed at MIT can boost overall efficiency.
Technique rapidly measures cells’ density, reflecting health and developmental state
The method could help predict whether immunotherapies will work in a patient or how a tumor will respond to drug treatment.
Scientists discover potential new targets for Alzheimer’s drugs
Pathways involved in DNA repair and other cellular functions could contribute to the development of Alzheimer’s.
Imaging technique removes the effect of water in underwater scenes
The color-correcting tool, known as “SeaSplat,” reveals more realistic colors of underwater features.
With AI, researchers predict the location of virtually any protein within a human cell
Trained with a joint understanding of protein and cell behavior, the model could help with diagnosing disease and developing new drugs.
Particles carrying multiple vaccine doses could reduce the need for follow-up shots
MIT engineers designed polymer microparticles that can deliver vaccines at predetermined times after injection.