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.
Postdoctoral associate Matt McDonald will run in the 2022 Boston Marathon this upcoming April, reports Michael Silverman for The Boston Globe. “It’s thrilling that I’ll get to race the best marathon in the world on the street that I run every day,” says McDonald.
Prof. Timothy Lu, Prof. Jim Collins and Philip Lee ’03 co-founded Senti Bio, a biotechnology company that uses gene circuit technology to create cell and gene therapies that can sense and respond to ailments inside the body, reports Sohini Podder for Reuters. “The way I like to think about it – just like you can program a computer with different programs or different maps, we can do the same thing with medicines,” says Lu.
Sean Hunt PhD ’16, M. Eng ’13 and Gaurab Chakrabarti co-founded Solugen after discovering a way to make chemicals from corn syrup instead of fossil fuels, reports Adele Peters for Fast Company. “Based on a detailed analysis of current products, the company estimates that it could theoretically produce 90% of the chemicals that are now produced by fossil fuels,” writes Peters.
Forbes reporter Jack Kelly profiles Institute Prof. Robert Langer, spotlighting his career journey and his passion for helping others. “I traded job security and high pay for doing things I was passionate about,” Langer explains. “Out of over 20 job offers I received upon graduation from college, I chose the lowest paying one by far because I thought by doing so, I could potentially improve the health of patients. I dreamed about doing things that I thought would make the world a better place.”
MIT Professor Badley Olsen speaks with WCVB-TV about his work identifying new ways to reuse rubbers and plastics. His research has allowed for fashion companies to produce sustainable and comfortable clothing and accessories for consumers. “You can both decrease the amount of petroleum you take out of the ground to make new materials and you can reduce the amount of waste. I think both of these are really important for the sustainability of our city and our society,” says Professor Olsen.
Institute Professor Paula Hammond, head of MIT’s Department of Chemical Engineering, has been selected to serve on the President's Council of Advisors on Science and Technology, “a group of external advisers tasked with making science, technology and innovation policy recommendations to the White House and the president,” reports Alexis Gravely for Inside Higher Ed. Professors Maria Zuber, MIT vice president for research, and Eric Lander, the president’s science adviser and director of the White House Office of Science and Technology Policy, are two of the co-chairs for the council.
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.”
In an article for The Wall Street Journal about efforts to help repair or prevent cartilage damage before osteoarthritis sets in, Laura Landro spotlights how MIT researchers are developing “ways to get drugs into the cartilage tissue and keep them there. They are using microscopic particles called nanocarriers to deliver IGF-1, an insulin like growth factor, to the tight mesh that holds cartilage in joints.”
National Geographic reporter Roxanne Khamsi spotlights how Prof. Richard Braatz is working on developing continuous manufacturing processes that could help boost global vaccine availability. Khamsi notes that one feature Braatz and his colleagues are testing is using “a filter that attaches to the side of their production tanks to continuously extract vaccine material, rather than harvesting it in bulk.”
UPI reporter Brian Dunleavy writes that MIT researchers have developed a new way to potentially expand sources of biofuel to include straw and woody plants. "Our goal is to extend this technology to other organisms that are better suited for the production of these heavy fuels, like oils, diesel and jet fuel," explains Prof. Gregory Stephanopoulos.
Provost Marty Schmidt speaks with TopUniversities.com reporter Chloe Lane about how MIT has maintained its position as the top university in the world on the QS World University Rankings for 10 consecutive years. “I am honored to have been a part of the MIT community for almost 40 years,” says Schmidt. “It’s a truly interdisciplinary, collaborative, thought-provoking place that encourages experimentation and pushes you to expand your mind. I think it’s a wonderful place to call home.”
Professor Martin Bazant and Professor John Bush have developed a new safety guideline to limit the risk of airborne Covid-19 transmission in different indoor settings. “For airborne transmission, social distancing in indoor spaces is not enough, and may provide a false sense of security,” says Bazant. “Efficient mask use is the most effective safety measure, followed by room ventilation, then filtration,” adds Bush.