From microfluidics to metastasis
New platform enables longitudinal studies of circulating tumor cells in mouse models of cancer.
New platform enables longitudinal studies of circulating tumor cells in mouse models of cancer.
Theoretical analysis distinguishes observed “holes” from the huge list of hypothetically possible ones.
Microbes screened with a new microfluidic process might be used in power generation or environmental cleanup.
Excitement is rising in the push to get zero-carbon energy on the grid.
Faculty in the Department of Mechanical Engineering are developing technologies that store, capture, convert, and minimize greenhouse gas emissions.
Independent Activities Period class explores the role coastal ecosystems play in protecting the environment and how climate change has affected them.
MIT president and two engineering faculty recognized for contributions with tangible impacts on quality of life, economic development, and the welfare of society.
PhD student Julia Sokol is helping develop drip irrigation technologies that allow farmers to save water and energy.
Electronic pill can relay diagnostic information or release drugs in response to smartphone commands.
Method could illuminate features of biological tissues in low-exposure images.
With water-rescue devices, injury-preventing knives, and more, students launch products that make the world a little safer.
High-temperature steam might be used in remote regions to cook, clean, or sterilize medical equipment.
Four seniors in the Principles and Practices of Assistive Technology program designed an audible device to help an MIT employee navigate on the water.
Mechanical engineering alumni of 2.009 (Product Engineering Processes) win with Rhino, a product that makes brick repointing faster, safer, and more accurate.