New “refrigerator” super-cools molecules to nanokelvin temperatures
Technique may enable molecule-based quantum computing.
Technique may enable molecule-based quantum computing.
Neurons that store abstract representations of past experiences are activated when a new, similar event takes place.
Committing to aggressive conservation efforts could rebuild ocean habitats and species populations in a few decades.
Translated into sound, SARS-CoV-2 tricks our ear in the same way the virus tricks our cells.
Entrepreneurial groups around the Institute have launched initiatives to address challenges brought on by the Covid-19 pandemic.
DNA-based self-assembling system sheds light on processes essential for semiconductors and nanotechnology.
Study shows that a simple urine test can reveal the presence of lung cancer in mice.
A specialized MRI sensor reveals the neurotransmitter’s influence on neural activity throughout the brain.
Spanish conquerors depended on indigenous expertise to keep up their munitions supplies, archaeologists have found.
MIT biochemists can trap and visualize an enzyme as it becomes active — an important development that may aid in future drug development.
MIT Concrete Sustainability Hub researchers are investigating how the layouts, or textures, of cities influence extreme weather events.
Chemical engineers have developed a way to protect transplanted drug-producing cells from immune system rejection.
Technique may enable speedy, on-demand design of softer, safer neural devices.
Device for harnessing terahertz radiation might help power some portable electronics.
MIT chemists are testing a protein fragment that may inhibit coronaviruses’ ability to enter human lung cells.