Learning to design with atoms and molecules
A hands-on class teaches undergraduates the fundamentals of quantum mechanics and nanoscale science from inside MIT.nano’s cleanroom.
A hands-on class teaches undergraduates the fundamentals of quantum mechanics and nanoscale science from inside MIT.nano’s cleanroom.
The teams will work toward sustainable microchips and topological materials as well as socioresilient materials design.
The second annual student-industry conference was held in-person for the first time.
19th Microsystems Annual Research Conference reveals the next era of microsystems technologies, along with skiing and a dance party.
The receiver chip efficiently blocks signal interference that slows device performance and drains batteries.
A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.
Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.
Researchers have developed a programmable optical device for high-speed beam steering.
Engineers working on “analog deep learning” have found a way to propel protons through solids at unprecedented speeds.
Cheap and quick to produce, these digitally manufactured plasma sensors could help scientists predict the weather or study climate change.
Researchers demonstrate two security methods that efficiently protect analog-to-digital converters from powerful attacks that aim to steal user data.
Researchers show they can control the properties of lab-grown plant material, which could enable the production of wood products with little waste.
MIT’s LEAP at MIT.nano is the first in a network to advance manufacturing for the state.
MIT, RPI, and SUNY convene a national conversation on semiconductor tech translation and hard-tech startups.
MIT AI Hardware Program launches with five inaugural companies to advance AI technologies for the next decade.