Not stuck on silicon
Engineers use graphene as a “copy machine” to produce cheaper semiconductor wafers.
Engineers use graphene as a “copy machine” to produce cheaper semiconductor wafers.
Students recognized for inventive solutions to challenges in health care, transportation, food and agriculture, and consumer devices.
Analysis shows system could economically bring fresh water and renewable energy storage to drought-stricken coastal regions worldwide.
Scientists discover a way to harvest fresh water from air, including in arid regions.
Solution developed at MIT could stop buildup of hydrate ices that slow or block oil and gas flow.
ENN Group, one of China’s largest private energy companies, will join MITEI’s Center for Energy Storage Research.
Support will enable the exploration of new research terrains.
“Quantum dots” that emit infrared light enable highly detailed images of internal body structures.
MIT principal investigators will apply cutting-edge research to the challenges of the developing world, seeking a large-scale impact.
Longtime professor in the Department of Mechanical Engineering patented over a dozen inventions and inspired generations of engineers.
Microfluidic device isolates plasma cells from blood rather than bone marrow.
With support from the Toyota Research Institute, MIT faculty will focus on next-generation energy storage.
New technique produces highly conductive graphene wafers.
“We really want to make something fun and get it to people fast," says senior Gabe Alba.
In a three-day workshop, 60 Beijing high school students build underwater remotely operated vehicles and launch them in the Zesiger pool.