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The Washington Post

Washington Post reporter Travis Andrews writes that MIT researchers have created a workout suit with ventilating flaps embedded with bacteria that automatically open and close in response to sweat. Andrews explains that “as the bacteria relaxes and shrinks into itself, the cells pull away from the wearer, opening the flaps and letting fresh air flood in.”

Popular Science

MIT researchers have developed a workout suit with vents that are triggered by bacteria to automatically open in response to sweat, reports Rob Verger for Popular Science. Verger explains that the researchers hope to apply the technology to create clothing that can, “produce a pleasant smell when you sweat.”

Daily Mail

Daily Mail reporter Colin Fernandez writes that MIT researchers have developed a self-ventilating workout suit that can help keep athletes cool and dry while they exercise. Fernandez explains that the suit is embedded with harmless microbes that contract when they sense heat or cold, triggering flaps in the suit to open and close. 

Boston Globe

Boston Globe reporter Steve Annear writes that a replica “Star Wars” X-wing Starfighter made an appearance in Lobby 7 on Monday. The replica was originally created for the annual 2.007 robot competition, during which students navigate robots that they designed and built themselves through a “Star Wars”-themed course. 

The Washington Post

Ben Guarino of The Washington Post revisits research by Profs. Annette Hosoi and Amos Winter examining how razor claims burrow through sand.  Hosoi and Winter developed a device that “mimics the razor clam's digging ability, allowing an object to secure itself to the sea floor,” and could be used to anchor underwater autonomous vehicles or deposit undersea cables.

Metro

Metro reporter Kristin Toussaint interviewed students in Course 2.007 as they tested robots they designed and built for the class’ annual robotics competition, which featured a “Star Wars” theme this year. “Every year we get crazy, cool, creative insights that the students come up with and awesome robots they build that we would have never anticipated,” explains Prof. Amos Winter.

Forbes

NuTonomy, an MIT startup, will soon start testing self-driving cars in Boston’s Seaport District and Fort Point areas, writes Doug Newcomb for Forbes.  

The Wall Street Journal

Wall Street Journal reporter Daniel Akst writes about a new solar-powered, water-harvesting device developed by MIT researchers. The device is “about the size of a Kleenex box [and] can suck lifesaving amounts of water out of the air even in extremely arid places.”

IEEE Spectrum

IEEE Spectrum reporter Dexter Johnson writes that MIT researchers have developed a technique for producing cheaper semiconductor wafers using graphene. The method could “make the use of exotic semiconductors more accessible to industries by preparing semiconductor thin films without the high cost of using bulk wafers.”

CNN

CNN reporter Kaya Yurieff writes that MIT researchers have created a device that can harvest drinking water from the air, even in desert climates. “I'm most excited about being able to realize a functioning device in these remote areas and to be able to provide clean water to all the people who need it," says Prof. Evelyn Wang. 

Scientific American

In an article published by Scientific American, Amin Al-Habaibeh writes about a device developed by MIT researchers that can extract drinking water from the atmosphere. Al-Habaibeh notes that the device’s ability to harvest water in dry regions, only using solar power, makes it a “particularly promising technology for harvesting water in arid or desert regions of the world.”

Fortune- CNN

MIT researchers have developed a device that draws water from the air using solar power, writes David Morris for Fortune. The device could serve as a possible solution for regions facing issues with water access, and “could unleash massive growth in regions where it’s still a problem, both at home and abroad,” concludes Morris.

NPR

Joe Palca of NPR reports on a device developed by researchers from MIT and the University of California at Berkeley that uses a new technique to extract water from the air. Palca explains that the device uses “less power and works in drier environments,” than other technologies designed to turn water vapor into drinking water. 

STAT

STAT reporter Eric Boodman writes that MIT researchers have engineered living materials that glow when they detect certain chemicals. Boodman notes that the researchers hope the living sensors “could at some point be used to pick up dangerous toxins or the chemical signs of disease.”

Science

A device co-developed by Prof. Evelyn Wang can remove water vapor from the air, producing almost 3 liters of water a day, writes Robert Service for Science. The device could eventually be used to provide homes in the driest parts of the world with “a solar-powered appliance capable of delivering all the water they need, offering relief to billions of people.”