Seeing an elusive magnetic effect through the lens of machine learning
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
Virtual conference gathered students, faculty, and industry partners to explore the future of microsystems and nanotechnology.
A new way to make carbon fiber could turn refinery byproducts into high-value, ultralight structural materials for cars, aircraft, and spacecraft.
Inspired by the human ear, a new acoustic fabric converts audible sounds into electrical signals.
A method for stabilizing the interfaces in solid-state lithium-ion batteries opens new possibilities.
Online MICRO internship program brings remote opportunities to undergrads.
“Carbon Queen” explores how the Institute Professor transformed our understanding of the physical world and made science and engineering more accessible to all.
Seventeen new professors join the MIT community, with research areas ranging from robotics and machine learning to health care and agriculture.
Senior Heidi Li strives to help local communities understand how they can influence policymaking to achieve a more sustainable future.
National Science Foundation award will allow the VELION FIB-SEM to become a permanent instrument in MIT.nano’s characterization facility.
With many devices depending on the motion of ions, light could be used as a switch to turn ion motion on and off.
Through MIT’s Undergraduate Research Opportunities Program, students explore research topics relevant to their own interests, the MCSC, and member companies.
New fellows are working on electronic health record algorithms, remote sensing data related to environmental health, and neural networks for the development of antibiotics.
Doctoral candidate Nina Andrejević combines spectroscopy and machine learning techniques to identify novel and valuable properties in matter.
SMART breakthrough could help develop technologies that can identify materials according to desired properties for specific applications.