Toward batteries that pack twice as much energy per pound
A method for stabilizing the interfaces in solid-state lithium-ion batteries opens new possibilities.
A method for stabilizing the interfaces in solid-state lithium-ion batteries opens new possibilities.
Online MICRO internship program brings remote opportunities to undergrads.
During a tour of MIT.nano, the commerce secretary argued for boosting domestic semiconductor research and manufacturing, to fight inflation and improve national security.
“Carbon Queen” explores how the Institute Professor transformed our understanding of the physical world and made science and engineering more accessible to all.
Improvements in the material that converts X-rays into light, for medical or industrial images, could allow a tenfold signal enhancement.
A new analysis offers guidance on the size of nanoparticles that could be most effective at stopping internal bleeding.
Passive solar evaporation system could be used to clean wastewater, provide potable water, or sterilize medical tools in off-grid areas.
The material could pave the way for sustainable plastics.
National Science Foundation award will allow the VELION FIB-SEM to become a permanent instrument in MIT.nano’s characterization facility.
The new substance is the result of a feat thought to be impossible: polymerizing a material in two dimensions.
A pill that releases RNA in the stomach could offer a new way to administer vaccines, or to deliver therapies for gastrointestinal disease.
Doctoral candidate Nina Andrejević combines spectroscopy and machine learning techniques to identify novel and valuable properties in matter.
MIT researchers lay out a strategy for how universities can help the US regain its place as a semiconductor superpower.
Spread out or bead up? A new process enables control over liquid-solid interfaces even with the most unlikely pairs of materials.
Undergraduate classes provide hands-on introduction to nanotechnology and nanoengineering at MIT.nano.