Teachers embrace hands-on learning in Materials Genome Camp
Educators in weeklong MIT workshop mold self-healing metal, bridging materials science and classroom engagement.
Educators in weeklong MIT workshop mold self-healing metal, bridging materials science and classroom engagement.
The MIT School of Engineering recently honored outstanding faculty, students, and staff with its 2023 awards.
Renowned metallurgist and mentor leaves behind a strong record of innovation, mentorship, and impact at MIT.
Nine faculty members have been granted tenure in six units across MIT’s School of Engineering.
MIT engineers developed a new way to create these arrays, by scaffolding quantum rods onto patterned DNA.
In addition to turning on genes involved in cell defense, the STING protein also acts as an ion channel, allowing it to control a wide variety of immune responses.
By fine-tuning the spin density in some materials, researchers may be able to develop new quantum sensors or quantum simulations.
Faculty and researchers across MIT’s School of Engineering receive many awards in recognition of their scholarship, service, and overall excellence.
Researchers discover how to control the anomalous Hall effect and Berry curvature to create flexible quantum magnets for use in computers, robotics, and sensors.
New soft-bodied robots that can be controlled by a simple magnetic field are well suited to work in confined spaces.
The new strategy may enable engineered T cells to eradicate solid tumors such as glioblastoma.
Ranking at the top for the 12th year in a row, the Institute also places first in 11 subject areas.
Critical needs for curbing greenhouse gases include non-fossil fuel aviation, buildings, electric grids, industrial processes, and the potential of fusion power.
Six teams conducting research in AI, data science, and machine learning receive funding for projects that have potential commercial applications.
MIT engineers’ new technology can probe the neural circuits that influence hunger, mood, and a variety of diseases.