Riddle solved: Why was Roman concrete so durable?
An unexpected ancient manufacturing strategy may hold the key to designing concrete that lasts for millennia.
An unexpected ancient manufacturing strategy may hold the key to designing concrete that lasts for millennia.
A new method can produce a hundredfold increase in light emissions from a type of electron-photon coupling, which is key to electron microscopes and other technologies.
The MIT professor discussed a new nanoengineered platform to investigate strongly correlated and topological physics.
Luqiao Liu utilizes a quantum property known as electron spin to build low-power, high-performance computer memories and programmable computer chips.
Students compete to design a compression-resistant nanoscale material — and win possibly the world’s smallest trophy.
Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.
Researchers develop a scalable fabrication technique to produce ultrathin, lightweight solar cells that can be seamlessly added to any surface.
MIT-trained electrical engineer Jorg Scholvin guides researchers fabricating new technology at MIT.nano.
A new technique that accurately measures how atom-thin materials expand when heated could help engineers develop faster, more powerful electronic devices.
With new techniques in electron microscopy, James LeBeau explores the nanoscale landscape within materials to understand their properties.
Provider of ultra-high resolution 3D printing becomes sustaining member of industry group.
The device provides greater sensitivity and speed than previous versions, and could be used for industrial inspection, airport security, and communications.
By analyzing enzyme activity at the organism, tissue, and cellular scales, new sensors could provide new tools to clinicians and cancer researchers.
A technique for synthesizing many “white graphene” nanotubes at a time paves the way for stronger, heat-resistant composites, and membranes for renewable energy.
Now in its second year, the Rise program targets exceptional teenage scholars from around the world for their potential as future change-makers.