Prof. Jacopo Buongiorno speaks with National Geographic reporter Lois Parshley about the future of nuclear energy in the U.S. and western Europe. “Our analysis shows a big share of nuclear, a big share of renewables, and some storage is the best mix that is low-carbon, reliable, and at the lowest cost,” says Buongiorno of an MIT report showing the most cost-efficient, reliable grid comes from an energy mix.
Washington Post reporter Dalvin Brown spotlights Nextiles, a company spun out of MIT and the NSF that has crafted machine-washable smart fabrics that capture biometric data. “Just imagine all the biochemicals that come out of you and get released into your clothes,” says Prof. Yoel Fink of the future of e-textiles. “Today, all of that stuff gets erased in the washing machine. But at some point, your fabric could learn, listen to subtle changes, and alert you to go to the doctor for a checkup.”
Writing for Forbes, Prof. David Mindell memorializes the life and work of astronaut Michael Collins, a member of the Apollo 11 crew. “Thanks to Michael Collins, future generations can visit Air and Space, marvel at the Apollo 11 Command Module he piloted, and learn how astronauts pee,” writes Mindell. “Soaring exploration and humble humanity: a fitting legacy for Mike Collins.”
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.
Prof. Kripa Varanasi speaks with Boston 25 reporter Jim Morelli about a food-safe coating, called LiquiGlide, that makes it possible to squeeze every drop out of containers of items like ketchup and toothpaste. “It’s a universal kind of a problem,” Varanasi says. “The interface between the liquid and the solid is what makes these products stick to containers.”
Gizmodo reporter Andrew Liszewski writes that LiquiGlide, an MIT startup, is working with Colgate to introduce a “new recyclable toothpaste container that leverages LiquiGlide so that every last drop of the product can be squeezed out with minimal effort.”
CNN reporter Maggie Fox writes that MIT researchers have developed a new formula for calculating the risk of airborne Covid-19 transmission in indoor settings. "To minimize risk of infection, one should avoid spending extended periods in highly populated areas. One is safer in rooms with large volume and high ventilation rates," write Profs. Martin Bazant and John Bush.
Prof. Linda Griffith is on a mission to change the conversation about endometriosis “from one of women’s pain to one of biomarkers, genetics and molecular networks,” writes Rachel E. Gross for The New York Times. “The endometrium is inherently regenerative,” says Griffith. “So studying it, you’re studying a regenerative process — and how it goes wrong, in cases.”
Profs. Elsa Olivetti and Christopher Knittel speak with J.D. Allen of WSHU about the future of renewable energy in New England. Olivetti notes that the MIT Climate & Sustainability Consortium is aimed at “looking at the role of industry in helping to accelerate the transition to reduce carbon emissions, and the idea is that by convening a set of cross economy, leading companies with the MIT community, we can identify pathways towards decarbonization particularly focused on those industries outside of the energy producing sector.”
Boston Globe reporter Charlie McKenna spotlights how MOXIE, an MIT-designed instrument onboard NASA’s Perseverance rover, has successfully produced oxygen on Mars. “What’s amazing to me is that this instrument has been through two years of kind of brutal treatment, right? And it’s behaving as if nothing happened, as if we just turned it off and turned it on again right away,” says Michael Hecht of MIT’s Haystack Observatory.
MIT researchers have created 3D models of spiderwebs to help transform the web’s vibrations into sounds that humans can hear, writes Angela Moore for Reuters. “Spiders utilize vibrations as a way to communicate with the environment, with other spiders,” says Prof. Markus Buehler. “We have recorded these vibrations from spiders and used artificial intelligence to learn these vibrational patterns and associate them with certain actions, basically learning the spider’s language.”
In a new data sonification project, a team of MIT researchers have translated the vibrations of a spider’s web into music, writes Maddie Bender for Motherboard. The team "used the physics of spiderwebs to assign audible tones to a given string’s unique tension and vibration," writes Bender. "Summing up every string’s tone created an interactive model of a web that could produce sound through manipulation or VR navigation."
A team of MIT researchers have translated the vibrations of a spider’s web into music, reports Isaac Schultz for Gizmodo. “Spiders live in this vibrational universe,” says Prof. Markus Buehler. “They live in this world of vibrations and frequencies, which we can now access. One of the things we can do with this instrument with this approach is we can, for the first time, begin to feel a little bit like a spider or experience the world like the spider does.”
Forbes contributor Andrea Morris spotlights how MIT researchers have created a virtual reality experience that allows people to experience a spider web’s vibrations as music. "The team is working on a study exploring the boundaries between the kinds of compositions we humans create from synthetic instruments and our own conventional tuning, and compositions created from instruments that have been crafted and tuned by other biological beings, like spiders," writes Morris.
MIT researchers have created a new audio-visual virtual reality that can provide a sense of what it’s like to be a spider by converting a spider web’s vibrations into sounds that humans can hear, reports Ian Morse for New Scientist. “The spider web can be viewed as an extension of the body of the spider, in that it lives within it, but also uses it as a sensor,” says Prof. Markus Buehler. “When you go into the virtual reality world and you dive inside the web, being able to hear what’s going on allows you to understand what you see.”