Axios reporter Bryan Walsh highlights how MIT researchers have developed a new solar-powered device that can extract drinkable water from the air and “could help alleviate water scarcity in some of the world's driest regions.” Walsh notes that the new design “makes use of a more common material called zeolite, doubling its capacity to generate water.”
MIT researchers have developed a solar-powered system that is able to extract drinkable water from dry air, reports Layal Liverpool for New Scientist. “In areas where water scarcity is a problem, it’s important to consider different technologies which provide water, particularly as climate change will exacerbate many water scarcity issues,” says graduate student Alina LaPotin.
Prof. Tonio Buonassisi writes for Indvstrvs about how businesses can use machine learning systems to help address some of the world’s most pressing challenges. “What has emerged through our research,” writes Buonassisi, “is a combination of automation, data science, and computation — building blocks that promise to accelerate the rate of new materials development tenfold, and eventually millions of times, faster.”
Researchers from the Singapore-MIT Alliance for Research and Technology (SMART) Critical Analytics for Manufacturing Personalized Medicine (CAMP) research group have been awarded new research grants aimed at supporting work exploring personalized medicine and cell therapy, reports Health Europa. “In addition to our existing research on our three flagship projects, we hope to develop breakthroughs in manufacturing other cell therapy platforms that will enable better medical treatments and outcomes for society,” says Associate Provost Krystyn Van Vliet.
Third-year student Emily Rabinovitsj speaks with Boston Globe correspondent Mike Kotsopoulos about her quest to complete the virtual Boston Marathon and raise funds for 15-40 Connection, a non-profit dedicated to educating people on how to detect early-stage cancer. “I got this gift of being able to have a full life after a diagnosis and I feel like I have a responsibility to take advantage of that opportunity and help others have this same opportunity,” Rabinovitsj said.
Fast Company reporter Adele Peters spotlights how, as part of an effort to reduce Covid-19 risk for health care workers, researchers from MIT and Brigham and Women’s Hospital developed a new system that enables remote vital sign monitoring. "We started to think about how we could protect healthcare providers and minimize contact with folks that might be infectious,” says Prof. Giovanni Traverso.
CNN reporter Allen Kim spotlights how researchers from MIT and Brigham and Women’s Hospital have modified a robotic dog so that it can be used to help measure a patient’s vital signs. “The researchers expect to focus on triage applications in the short term, with the goal of ultimately deploying robots like this to patients' hospital rooms to continuously monitor them and let doctors to check in on them without ever having to step into the room,” writes Kim.
CBS Boston features how researchers from MIT and Brigham and Women’s Hospital equipped a robot from Boston Dynamics with technology to enable remote vital sign monitoring.
In this video, Bloomberg News spotlights how researchers from MIT and Brigham and Women’s Hospital have developed a new system that facilitates remote monitoring of a patient’s vital signs, as part of an effort to help reduce healthcare workers’ Covid-19 risk. Researchers have successfully measured temperature, breathing rate, pulse rate and blood oxygen saturation in healthy patients.”
Researchers from MIT and Brigham and Women’s Hospital have repurposed a robotic dog from Boston Dynamics with technology that enables doctors to remotely measure a patient’s vital signs, reports Rick Sobey for The Boston Herald. “Using four cameras mounted on the dog-like robot, the researchers have shown that they can measure skin temperature, breathing rate, pulse rate and blood oxygen saturation in healthy patients,” writes Sobey.
MIT researchers have created a new synthetic lining that could be used to help treat digestive diseases, reports Pratibha Gopalakrishna for STAT. “We wanted to develop a liquid system that is easier to take compared to tablets or capsules, but had enhanced capabilities,” explains Prof. Giovanni Traverso.
New Scientist reporter Alice Klein writes that MIT researchers have developed a synthetic glue that could be used to line the small intestine and help treat several conditions, including diabetes and lactose intolerance. “The researchers found they could control the uptake of different nutrients,” writes Klein, “by adding various substances to the synthetic lining.”
Danielle Geathers, president of the Undergraduate Association (UA), writes for Time about how her childhood helped inspire her to desire to advocate for change. “My activism was nurtured by my mother’s emphasis on cultural education,” writes Geathers. “I had early exposure to Alex Haley’s Kunta Kinte, Frederick Douglass, W.E.B. Du Bois and Maya Angelou. I was planted in solid ground with roots that stretched back generations.”
MIT researchers outfitted a Boston Dynamics robotic dog with contactless vital sign monitoring equipment to help clinicians care for patients with Covid-19 without risking exposure, reports Darrell Etherington for TechCrunch. Etherington writes that the system “has the potential to not only reduce the risk of exposure for medical personnel, but also drastically reduce use of personal protective equipment.”
New Scientist spotlights “Grasp: The Science Transforming How We Learn,” a new book by Sanjay Sarma, vice president for open learning, and Luke Yoquinto, a research affiliate at the MIT AgeLab. The book explores how “scientific findings in wildly different fields are transforming the way we learn and teach.”