Designboom reporter Matthew Burgos spotlights how MIT engineers “3D printed recycled glass and produced robust LEGO-like bricks for buildings and facades.” The researchers found that “in mechanical testing, a single 3D printed recycled glass brick can withstand pressures similar to those of a concrete block,” Burgos explains. “This means that the material can be just as robust as concrete, making it ideal for construction.”
Researchers at MIT have developed “3D-printed glass blocks shaped like a figure eight that snap together like LEGOs,” reports Brian Heater for TechCrunch. “The team points to glass’ optical properties and its ‘infinite recyclability’ as reasons for turning to the material,” writes Heater.
Boston Globe columnist Scott Kirsner spotlights Prof. Mitchel Resnick, Prof. Neil Gershenfeld, and the late Prof. Emeritus Woodie Flowers and their work developing programs that “get kids excited about, and more proficient in, STEM.” Kirsner underscores: “Each of the initiatives brings some of the hands-on problem solving, messiness, and collaborative prototyping elements of MIT’s culture into the wider world. And they’ve all had a big impact on the way kids learn about technology.”
Graduate student Krista Mileva-Frank is curating “Objects for a Heavenly Cave,” an art exhibition at the Marta gallery in Los Angeles, highlighting the work of 13 artists and collectives considering “how the legacy of the Renaissance grotto might extend to their own work,” reports Laura Bannister for The New York Times. “Mileva-Frank hopes the show will encourage audiences to consider the relationship between art and nature and to contend with their own limited agency in an era of climate disaster,” writes Bannister.
Scientists from MIT and elsewhere are using submersible structures to harness the power of ocean waves and make sand accumulate in specific regions to protect islands and potentially grow new ones, reports Amy Gunia for CNN. “With each field experiment, the group says it is advancing its understanding of what materials, configurations, and construction techniques can make sand accumulate in the simplest, most cost-effective, sustainable, long-lasting and scalable way,” explains Gunia.
With skateboarding the sixth fastest-growing sport in the U.S. from 2019 to 2023, Bloomberg reporter Alexandra Lange highlights how Alexis Sablone MA ’16, coach of the 2024 Olympic Women’s U.S. Skateboarding Team, a three-time X-Games gold medalist, and graduate of MIT’s Department of Architecture, recently “designed a set of sculptural skate elements for a former tennis court, formalizing and aestheticizing what had been an informal spot” at a park in Montclair, New Jersey.
Joesph Coughlin, director of the AgeLab, speaks with Atlantic reporter Charley Locke about how retirement can result in feelings of identity loss and can present cognitive and emotional health challenges. “When people are at the center of their universe through their job, we don’t have a storyline or a place in our society that is attractive enough to say, ‘Maybe I’ve had enough,’” says Coughlin. “You’re showing people the door with no direction.”
MIT spinout, Cogito, uses “advanced voice analytics to scrutinize voice tons and speech patterns, not just during customer interactions but also within internal team communications,” reports Andre Shojaie for Forbes. “By providing real-time feedback to representatives, Cogito helps them adjust their emotional tone and empathy levels accordingly,” explains Shojaie. “This application significantly reduces stress and cultivates a supportive work environment by enhancing interpersonal interactions among team members.”
Prof. of the Practice Elisabeth Reynolds speaks with Washington Post reporter David Lynch about the Biden administration’s efforts to reduce dependance on Chinese equipment such as ship-to-shore cranes. "In the face of China as an economic and political and national security threat, we have to rethink some strategies,” says Reynolds. “And regardless of the product and regardless of the country, we don't want to be beholden to a monopoly supplier. That's a bad strategy.”
Ivan Casadevantre MS '15 and Hasier Larrea MS '15 co-founded ORI Living – a furniture company that uses electromechanics to develop furniture systems designed for space efficiency. “You have to make those small spaces feel and act as if they were much larger,” says Larrea. “And that’s when we started thinking about robotics, thinking about engineering, and how we bring all those technologies to make it possible to live large in a smaller footprint.”
A new surgical procedure and neuroprosthetic interface developed by MIT researchers allows people with amputations to control their prosthetic limbs with their brains, “a significant scientific advance that allows for a smoother gait and enhanced ability to navigate obstacles,” reports Lizette Ortega for The Washington Post. “We’re starting to get a glimpse of this glorious future wherein a person can lose a major part of their body, and there’s technology available to reconstruct that aspect of their body to full functionality,” explains Prof. Hugh Herr.
Researchers at MIT have developed a novel surgical technique that could “dramatically improve walking for people with below-the-knee amputations and help them better control their prosthetics,” reports Timmy Broderick for STAT. “With our patients, even though their limb is made of titanium and silicone, all these various electromechanical components, the limb feels natural, and it moves naturally, without even conscious thought," explains Prof. Hugh Herr.
Using a new surgical technique, MIT researchers have developed a bionic leg that can be controlled by the body’s own nervous system, reports The Economist. The surgical technique “involved stitching together the ends of two sets of leg muscles in the remaining part of the participants’ legs,” explains The Economist. “Each of these new connections forms a so-called agonist-antagonist myoneural interface, or AMI. This in effect replicates the mechanisms necessary for movement as well as the perception of the limb’s position in space. Traditional amputations, in contrast, create no such pairings.”
A new surgical approach developed by MIT researchers enables a bionic leg driven by the body’s nervous system to restore a natural walking gait more effectively than other prosthetic limbs, reports Clive Cookson for the Financial Times. “The approach we’re taking is trying to comprehensively connect the brain of the human to the electro-mechanics,” explains Prof. Hugh Herr.
Researchers at MIT and Brigham and Women’s Hospital have created a new surgical technique and neuroprosthetic interface for amputees that allows a natural walking gait driven by the body’s own nervous system, reports Adam Piore for The Boston Globe. “We found a marked improvement in each patient’s ability to walk at normal levels of speed, to maneuver obstacles, as well as to walk up and down steps and slopes," explains Prof. Hugh Herr. “I feel like I have my leg — like my leg hasn’t been amputated,” shares Amy Pietrafitta, a participant in the clinical trial testing the new approach.