MADMEC winner creates “temporary tattoos” for T-shirts
Me-Shirts, winner of the annual MIT materials science competition, has developed a biodegradable material than can be easily added and removed from shirts.
Me-Shirts, winner of the annual MIT materials science competition, has developed a biodegradable material than can be easily added and removed from shirts.
Awarded $65.67 million from ARPA-H, the researchers will work to develop ingestible capsules that deliver mRNA and electric stimuli to treat metabolic disorders such as diabetes.
Exploiting the symmetry within datasets, MIT researchers show, can decrease the amount of data needed for training neural networks.
The awards offer opportunities to expand research into unique areas of scholarship.
For 14 years, Crayton has strengthened programs and created new ones that foster academic success, provide mentoring, prepare students for careers or graduate school, and build community.
Longtime professor helped develop the Department of Mechanical Engineering’s design and manufacturing curriculum, contributed to artificial joints as well as NASA inertial guidance systems.
A new microscopy technique that enables high-resolution imaging could one day help doctors diagnose and treat brain tumors.
The MIT professor emerita and pioneering molecular biologist is being honored for her advocacy for women in science.
The advanced fabrication tools will enable the next generation of microelectronics and microsystems while bridging the gap from the lab to commercialization.
State-of-the-art toolset will bridge academic innovations and industry pathways to scale for semiconductors, microelectronics, and other critical technologies.
Using a DNA-based scaffold carrying viral proteins, researchers created a vaccine that provokes a strong antibody response against SARS-CoV-2.
Research scientist will help ensure that transportation’s future is safe, efficient, sustainable, equitable, and transformative.
EMERGE program ignites interest in science through hands-on electron microscopy.
The ambient light sensors responsible for smart devices’ brightness adjustments can capture images of touch interactions like swiping and tapping for hackers.
High-speed experiments can help identify lightweight, protective “metamaterials” for spacecraft, vehicles, helmets, or other objects.