MIT.nano
MIT.nano

MIT.nano

Artificial Intelligence Batteries Cleaner industry Climate Computer science and technology Electronics Energy health Industry Innovation and Entrepreneurship (I&E) Materials science and engineering MIT.nano Nanoscience and nanotechnology Photonics Quantum Computing School of Engineering School of Science Semiconductors Startups Superconductivity Technology and society

Sixteen new START.nano companies are developing hard-tech solutions with the support of MIT.nano

Startup accelerator program grows to over 30 companies, almost half of them with MIT pedigrees.

Artificial Intelligence Computer chips Computer science and technology Electrical engineering and computer science (EECS) Electronics Energy Materials science and engineering Microsystems Technology Laboratories MIT Schwarzman College of Computing MIT.nano Nanoscience and nanotechnology Research School of Engineering Sustainable computing

New materials could boost the energy efficiency of microelectronics

By stacking multiple active components based on new materials on the back end of a computer chip, this new approach reduces the amount of energy wasted during computation.

Artificial Intelligence DMSE Energy machine learning Materials science and engineering MIT.nano Nanoscience and nanotechnology Nuclear science and engineering Research School of Engineering

AI system learns from many types of scientific information and runs experiments to discover new materials

The new “CRESt” platform could help find solutions to real-world energy problems that have plagued the materials science and engineering community for decades.

Abdul Latif Jameel Water and Food Systems Lab (J-WAFS) Artificial Intelligence Chemical engineering Collaboration Education, teaching, academics Industry Labor and jobs Manufacturing Mechanical engineering MIT.nano Political science School of Engineering School of Humanities Arts and Social Sciences Technology and policy

MIT gears up to transform manufacturing

The Initiative for New Manufacturing is convening experts across the Institute to drive a transformation of production across the U.S. and the world.

Artificial Intelligence Arts Automation computer-vision machine learning Mechanical engineering Microsystems Technology Laboratories MIT Libraries MIT.nano Research School of Engineering Visual arts

Have a damaged painting? Restore it in just hours with an AI-generated “mask”

A new method can physically restore original paintings using digitally constructed films, which can be removed if desired.

Artificial Intelligence Cleaner industry Collaboration Computer chips Electrical engineering and computer science (EECS) Electronics Energy efficiency Industry Microsystems Technology Laboratories MIT.nano Photonics Research Research Laboratory of Electronics School of Engineering Semiconductors Silicon Sustainable computing

Collaborating to advance research and innovation on essential chips for AI

Agreement between MIT Microsystems Technology Laboratories and GlobalFoundries aims to deliver power efficiencies for data centers and ultra-low power consumption for intelligent devices at the edge.

Artificial Intelligence Computer science and technology DMSE Electrical engineering and computer science (EECS) Electronics Energy machine learning Materials science and engineering Microsystems Technology Laboratories MIT Schwarzman College of Computing MIT.nano Nanoscience and nanotechnology Nuclear science and engineering Research School of Engineering

Nanoscale transistors could enable more efficient electronics

Researchers are leveraging quantum mechanical properties to overcome the limits of silicon semiconductor technology.

Artificial Intelligence Community Computer science and technology Innovation and Entrepreneurship (I&E) Materials science and engineering MIT.nano Nanoscience and nanotechnology Sports and fitness Startups Technology and society

Helping Olympic athletes optimize their performance, one stride at a time

The startup Striv, which went through MIT’s START.nano accelerator program, has developed a shoe sole for athletes that can track force, movement, and form.

Artificial Intelligence Augmented and virtual reality Brazil Collaboration Digital technology Education, teaching, academics Global Health Care Health sciences and technology Innovation and Entrepreneurship (I&E) Latin America Learning Medicine MIT.nano Startups Technology and society

Brain surgery training from an avatar

MIT.nano Immersion Lab works with AR/VR startup to create transcontinental medical instruction.