Infrared cameras and artificial intelligence provide insight into boiling
MIT researchers train a neural network to predict a “boiling crisis,” with potential applications for cooling computer chips and nuclear reactors.
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.
“This is a really exciting time to be a roboticist who also cares about the environment,” says PhD student Victoria Preston.
Lincoln Laboratory’s TROPICS satellites will help scientists study extreme tropical weather once all six are launched next year.
Contributions advanced dynamical properties of supercooled water and small-angle neutron and X-ray scattering over a 50-year career.
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MIT engineers design the first synthetic circuit that consists entirely of fast, reversible protein-protein interactions.
MIT alumnus-founded RightHand Robotics has developed picking robots that are more reliable and adaptable in warehouse environments.
The Hansen Lab investigates how genetic elements, known as enhancers, control the expression of genes in cancer.
Study demonstrates the power of low-cost air quality sensors during volcanic eruption.
The five-year award aims to empower “the most promising innovators in science and technology.”
The design could lead to conformable wearable monitors to track skin cancer and other conditions.
How 3D-printed models of neuronal axons could accelerate development of new therapies to treat neurodegenerative disorders.