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Fast Company

Researchers at MIT have developed a new atmospheric water harvester that eventually could be used to supply safe drinking water worldwide, reports Sarah Bregel for Fast Company. The device is “about the size of a standard window” and made from “hydrogel, a material that absorbs water, and lithium salts that can store water molecules,” explains Bregel. 

Ars Technica

Graduate student Alex Kachkine has developed a new technique that “uses AI-generated polymer films to physically restore damaged paintings in hours,” reports Benj Edwards for Ars Technica. “Kachkine's method works by printing a transparent ‘mask’ containing thousands of precisely color-matched regions that conservators can apply directly to an original artwork,” explains Edwards. “Unlike traditional restoration, which permanently alters the painting, these masks can reportedly be removed whenever needed. So it's a reversible process that does not permanently change a painting.” 

DesignBoom

MIT researchers have developed a new “window-sized device that can convert vapor from air into safe drinking water using hydrogel,” reports Matthew Burgos for designboom. “With the invention, the MIT engineers want to make it easier for people to produce clean drinking water in places where there’s no river, lake, or well,” Burgos explains, “and where the only source accessible to them that can be converted into water is air.”

New Scientist

MIT researchers have developed a power-free, water-collecting device that extracted a glass of clean water from the air in Death Valley, California, suggesting that “the device could provide the vital resource to arid regions,” reports Alex Wilkins for New Scientist.“Because the design of this device is quite a compact structure, we believe that an even larger area of the device can supply the drinking water for a household for daily consumption,” explains Prof. Xuanhe Zhao.

The Guardian

Guardian reporter Ian Sample highlights how graduate student Alex Kachkine has developed a new approach to restoring age-damaged artwork in hours“The technique draws on artificial intelligence and other computer tools to create a digital reconstruction of the damaged painting,” explains Sample. “This is then printed on to a transparent polymer sheet that is carefully laid over the work.” 

Nature

Graduate student Alex Kachkine speaks with Nature reporter Amanda Heidt about his work developing a new restoration method for restoring damaged artwork. The method uses “digital tools to create a ‘mask’ of pigments that can be printed and varnished onto damaged paintings,” explains Heidt. The method “reduces both the cost and time associated with art restoration and could one day give new life to many of the paintings held in institutional collections — perhaps as many as 70% — that remain hidden from public view owing to damage.” 

Nature

Nature spotlights graduate student Alex Kachkine – an engineer, art collector and art conservator – on his quest to develop a new AI-powered, art restoration method, reports Geoff Marsh for Nature. “My hope is that conservators around the planet will be able to use these techniques to restore paintings that have never been seen by the general public,” says Kachkine. “Many institutions have paintings that arrived at them a century ago, have never been shown because they are so damaged and there are no resources to restore them. And hopefully this technique means we will be able to see more of those publicly.” 

The Boston Globe

Georgina Campbell Flatter SM '11, Carmichael Roberts MBA '00 and Elise Strobach SM '17, PhD '20 are among the 2025 Boston Globe Tech Power Players in the sustainability sector, reports Jon Chesto for The Boston Globe

The Boston Globe

Prof. Yet-Ming Chiang, Shreya Dave '09, SM ’12, PhD '16, Bob Mumgaard SM '15, PhD '15 and Sloan alumna Emily Reichert have been named to the 2025 Boston Globe Tech Power Players list for their efforts in the energy sector, reports Hiawatha Bray for The Boston Globe. Chiang emphasizes the importance of federal funding in advancing scientific research. “My entire career has been supported by US taxpayers,” Chiang says. “The ability to give back and develop technologies and create jobs, that’s a big motivator for me.”

Fox News

Kurt Knutsson of FOX News spotlights how MIT researchers have developed a new mobile robot, dubbed E-BAR, designed to help physically support the elderly and prevent falls at home. “What stands out about E-BAR is how it's designed with real people in mind, not just as a tech gadget,” Knutsson explains. “It's easy to see how something like this could make a big difference for seniors wanting to stay independent without feeling tied down by bulky or uncomfortable devices.”

Science Friday

Felice Frankel, a research scientist in the MIT Department of Chemical Engineering and a science photographer, speaks with Science Friday host Flora Lichtman about science communicators can more effectively engage the public and make a better case for the importance of scientific research. 

CBS Boston

Dr. Mallika Marshall joins CBS Boston to discuss E-BAR, a new mobile robot developed by MIT researchers to physically support the elderly and prevent them from falling as they move around their homes. Marshall notes that E-BAR could also “lift someone from sitting to standing or vice versa, and catch someone safely by rapidly inflating side airbags if they begin to fall.” 

Forbes

Jia Haojun PhD '24, graduate student Gao Wenhao and postdoctoral associate James Utama Surjadi have been named to the Forbes 30 and Under 30 Asia: Healthcare & Science list, writes Yue Wang for Forbes. The list honors those “who are using cutting-edge technology to innovative and improve their industry.”

New York Post

New York Post reporter Marissa Matozzo cracks into a new study by MIT researchers that uncovers the best way to keep eggs from cracking. The researchers found that eggs dropped sideways are less likely to break than those dropped vertically. “It turns out the sides can take more of a beating than their pointy or rounded ends, and that could mean a lot for proper storage,” says Matozzo. 

Tech Briefs

Prof. Carlos Portela and postdoc James Surjadi speaks with TechBriefs reporter Andrew Corselli about their work developing a new metamaterial that is both strong and stretchy. “We have demonstrated the concept with these polymeric materials and, from here, we see a couple of opportunities,” Surjadi explains. “One is extending this to more brittle material systems. The real dream will be to be able to do this with glasses, other ceramics, or even metals — things that normally we don't expect to deform a lot before they break. Brittle materials are the perfect candidates for us to try to make into woven-type architectures.”