Faces of MIT: Gene Keselman
At MIT, Keselman is a lecturer, executive director, managing director, and innovator. Additionally, he is a colonel in the Air Force Reserves, board director, and startup leader.
Nanoscale transistors could enable more efficient electronics
Researchers are leveraging quantum mechanical properties to overcome the limits of silicon semiconductor technology.
“Wearable” devices for cells
By snugly wrapping around neurons, these devices could help scientists probe subcellular regions of the brain, and might even help restore some brain function.
Bubble findings could unlock better electrode and electrolyzer designs
A new study of bubbles on electrode surfaces could help improve the efficiency of electrochemical processes that produce fuels, chemicals, and materials.
Microelectronics projects awarded CHIPS and Science Act funding
MIT and Lincoln Laboratory are among awardees of $38 million in project awards to the Northeast Microelectronics Coalition to boost U.S. chip technology innovation.
Tools for making imagination blossom at MIT.nano
New STUDIO.nano supports artistic research and encounters within MIT.nano’s facilities.
No detail too small
For Sarah Sterling, the new director of the Cryo-Electron Microscopy facility at MIT.nano, better planning and more communication leads to better science.
Nanostructures enable on-chip lightwave-electronic frequency mixer
Lightwave electronics aim to integrate optical and electronic systems at incredibly high speeds, leveraging the ultrafast oscillations of light fields.
Study of disordered rock salts leads to battery breakthrough
A new family of integrated rock salt-polyanion cathodes opens door to low-cost, high-energy storage.
Professor Emeritus John Vander Sande, microscopist, entrepreneur, and admired mentor, dies at 80
A trailblazer in electron microscopy, Vander Sande is remembered for his dedication to teaching, service, and global collaboration.
MIT researchers identify routes to stronger titanium alloys
The new design approach could be used to produce metals with exceptional combinations of strength and ductility, for aerospace and other applications.
Using art and science to depict the MIT family from 1861 to the present
MIT.nano inscribes 340,000 names on a single silicon wafer in latest version of One.MIT.
Turning up the heat on next-generation semiconductors
Research sheds light on the properties of novel materials that could be used in electronics operating in extremely hot environments.
Scientists develop an affordable sensor for lead contamination
The chip-scale device could provide sensitive detection of lead levels in drinking water, whose toxicity affects 240 million people worldwide.
Seizing solar’s bright future
With laser-based precision tools for measuring and tuning materials, MIT spinout Optigon aims to rev up the energy transition.