MIT researchers have developed a solar-powered desalination system that “avoids salt buildup and could provide a family with continuous drinking water for only $4,” reports Miriam Fauzia for The Daily Beast. “The researchers hope to develop their device into something that can be mass produced and used by individuals and families, especially for those living in remote communities,” writes Fauzia.
WHDH spotlights MIT scientists who have created a new material as strong as steel and as light as plastic. “There is excitement because that may open up whole new classes of materials that are strong in new kinds of ways,” says Prof. Michael Strano.
MIT scientists have created a new strong yet light material that could be mass produced and used as coatings for cars, phones or even as building material for bridges, reports CBS Boston. “We don’t usually think of plastics as being something that you could use to support a building, but with this material, you can enable new things,” says Prof. Michael Strano.
Fast Company reporter Mark Wilson writes that MIT researchers have developed a new type of material that is two times stronger than steel with just one-sixth the material bulk. “The material has implications for everything from how we build the gadgets we hold in our hands to the buildings we live in,” writes Wilson.
MIT researchers have developed a new material that is as strong a steel but as light as plastic, reports Michelle Shen for USA Today. “It can be easily manufactured in large quantities, and the use cases range from lightweight coatings for cars and phones to building blocks for massive structures such as bridges,” writes Shen.
Prof. Jesús del Alamo speaks with Bloomberg Radio’s Janet Wu about a new report by MIT researchers that explores how the U.S. can regain leadership in semiconductor manufacturing and production. “Leadership in microelectronics is really critical for economic progress and also security concerns,” says del Alamo.
A new white paper by MIT researchers underscores the importance of regaining the U.S.’s innovation leadership in the area of semiconductor manufacturing and calls for increased investment at the research level to help advance this field, reports Stephen Shankland for CNET. "The hollowing out of semiconductor manufacturing in the US is compromising our ability to innovate in this space and puts at risk our command of the next technological revolution,” write the report’s authors. “To ensure long-term leadership, leading-edge semiconductor manufacturing in the US must be prioritized and universities activities have to get closer to it."
MIT startup Ubiquitous Energy has created transparent solar panels that can also generate electricity, reports Adele Peters for Fast Company. “The windows, with two panes of glass that are sealed together, have wires that can be connected either directly to something next to the window – such as a light or electronic blinds – or connected to a battery in the building or back into the electric grid,” writes Peters.
MIT researchers have developed a new technique for producing low-voltage, power-dense actuators that can propel flying microrobots, reports Danica D'Souza for Mashable. “The new technique lets them make soft actuators that can carry 80 percent more payload,” D’Souza reports.
MIT scientists have discovered a way to watch and record the development of butterfly scales from the inside of a butterfly’s chrysalis, reports Elizabeth Gamillo for Smithsonian Magazine. “The team plans on further exploring the structure of butterfly wings and the reasoning behind the ridged design,” writes Gamillo.
CNET science writer Monisha Ravisetti spotlights MIT researchers who have successfully recorded the scale formation of butterfly wings during its transformation. “Understanding their schematics could ultimately benefit constructed materials like windows and thermal systems and even bring an ethereal quality to textiles,” writes Ravisetti.
Popular Science reporter Hannah Seo writes that MIT researchers have developed a way to watch and record how the microscopic scales on a butterfly’s wings grow and tile themselves as the butterfly develops inside its chrysalis. The researchers hope to “use butterfly scales as inspiration for the design of new materials,” writes Seo. “Butterfly scales have other fascinating properties such as water repellency and the ability to regulate temperature.”
ARS Technica senior writer Jennifer Ouellette spotlights MIT researchers who have successfully recorded the structural growth of butterfly wings inside its chrysalis for the first time. “A lot of these stages were understood and seen before, but now we can stitch them all together and watch continuously what’s happening, which gives us more information on the detail of how scales form,” says research assistant Anthony McDougal.
MIT researchers are developing plants that can glow in the dark and provide light all night, reports USA Today. “The high-tech plants are embedded with nanoparticles that absorb light during the day or from other light sources like LEDs. After the lights go out, they slowly release that stored energy as luminescence over time.”
New York Times reporter Steve Lohr spotlights the origin and history of MIT startup Gingko Bioworks, a synthetic biology company founded with a “shared belief that biology could be made more like computing with reusable code and standard tools instead of the bespoke experiments of traditional biology." Jason Kelly ’03, PhD ’08, one of the founders of MIT startup Ginkgo Bioworks and the company’s chief executive, explains that “the ultimate goal for Ginkgo is to make it as easy to program a cell as it is to program a computer.”