Global collaboration surges post-pandemic
MISTI Global Seed Funds program compounds Institute impact by supporting partnerships abroad.
MISTI Global Seed Funds program compounds Institute impact by supporting partnerships abroad.
A new seed-coating process could facilitate agriculture on marginal arid lands by enabling the seeds to retain any available water.
MIT researchers train a neural network to predict a “boiling crisis,” with potential applications for cooling computer chips and nuclear reactors.
Four times faster than conventional PCR methods, new RADICA approach is highly specific, sensitive, and resistant to inhibitors.
Researchers could rapidly obtain high-resolution images of blood vessels and neurons within the brain.
Radioactive molecules are sensitive to subtle nuclear phenomena and might help physicists probe the violation of the most fundamental symmetries of nature.
MIT engineers design the first synthetic circuit that consists entirely of fast, reversible protein-protein interactions.
Study offers evidence, based on gravitational waves, to show that the total area of a black hole’s event horizon can never decrease.
Study demonstrates the power of low-cost air quality sensors during volcanic eruption.
The design could lead to conformable wearable monitors to track skin cancer and other conditions.
Study suggests a common mechanism underlies some behavioral traits seen in autism and schizophrenia.
Graduate student Ellen Zhong helped biologists and mathematicians reach across departmental lines to address a longstanding problem in electron microscopy.
How 3D-printed models of neuronal axons could accelerate development of new therapies to treat neurodegenerative disorders.
In a 3Q, Salvatore Vitale describes how gravitational-wave signals suggest black holes completely devoured their companion neutron stars.
The sensor technology could also be used to create clothing that detects a variety of pathogens and other threats.