Senior Research Scientist C. Adam Schlosser speaks with Boston Globe reporter Lindsay Crudele about how tending to personal gardens can be an effective tool in combating climate change. “We obviously have a lot of technologies that are trying to remove carbon from the air,” Schlosser explains, but “the best way of doing that, in terms of nature, is to plant new vegetation.”
Prof. Yet-Ming Chiang and his colleagues have developed a sodium-air fuel cell that “packs three to four times more energy per pound than common lithium-ion batteries,” reports Aaron Pressman for The Boston Globe, which could serve as “a potentially groundbreaking clean power source for airplanes.” Pressman adds that: “Ultimately, a sodium-air fuel cell could power a regional jet carrying 50 to 100 passengers on flights as long as 300 miles.”
A study by Prof. Noelle Selin has found that climate change will impact our ability to curb smoke and smog pollutants, reports Vivian La for WBUR. The researchers “used computer models to predict how air pollution will develop in the Eastern United States over the next few decades,” explains La. Selin underscored the importance of policies that reduce air pollution noting that: “what we’re doing to the atmosphere has impacts and it’s important not to roll these back.”
Writing for The Boston Globe, Prof. David Mindell spotlights how “a new wave of industrial companies, many in New England, are leveraging new technologies to create jobs, empower workers, and address climate change.” Mindell notes that “young Americans — new industrialists — are devoting themselves to making things for the common good.” He adds: "The country needs this generation of builders who are excited about working with their hands, about the satisfactions of building the world, and who see that work as building our communities.”
Forbes reporter Michael Nietzel spotlights MIT’s Initiative for New Manufacturing (INM), “an institution-wide effort intended to promote and advance the future of U.S. manufacturing.” Nietzel notes that the INM is part of an effort to “rethink how MIT could help shape the future of manufacturing through workforce training, advanced technologies, and industry collaborations. It will focus on enhancing the future manufacturing capacity and sophistication of several major industries.”
Prof. Ariel Furst has been named to Chemical & Engineering News’ 2025 Talented 12, which spotlights early-career scientists who are using their “chemistry know-how to make a real-world impact.” “By combining the power of biology with chemistry and materials engineering, Furst develops technologies to tackle crucial problems such as environmental remediation, sustainable agriculture, and carbon sequestration,” writes Prachi Patel. “Pretty much everything that agrochemicals do, there are microbes that we think do it better,” says Furst. “They do it more precisely and maintain the overall balance of the ecosystem much more effectively.”
Boston Business Journal reporter Eli Chavez spotlights Sublime Systems, an MIT startup “focused on low-carbon cement production.” “Sublime’s mission is to have a swift and massive impact measured in the amount of cement we produce and sell,” says CEO Leah Ellis, a former MIT postdoc. “We are super-focused on increasing our cement production.”
Prof. Jacquelyn Pless speaks with Grist reporter Tik Root about the future of the solar power industry amid federal proposals to remove tax credit incentives that assist with residential solar costs. “Policy volatility is really my bigger concern,” says Pless. “Policy uncertainty alone can start to freeze investment, raise costs, and damage market confidence.”
Prof. Amos Winter speaks with WBUR reporter Grace Griffin about his work developing a desalination system that relies on solar power. “The majority of water you find in the ground around the world is salty,” says Winter. “The reason we use solar power is that most people around the world are going to be resource-constrained. They may have lower income levels or not have access to grid electricity. So, our technology makes desalination much more accessible in all areas around the world.”
Forbes reporter Cornelia Walther spotlights innovators from MIT Solve’s climate solver teams, which “underscore the power of AI as a catalyst for transforming change across diverse sectors.” The teams illustrate “that when carefully designed and applied, AI can deliver substantial benefits for the environment — improving operational efficiency, cutting waste and even supporting social equity,” writes Walther.
A study by MIT researchers finds “using scrubbers to treat exhaust from heavy fuel oil may offer environmental performance on par with, and in some areas superior to, burning low-sulfur fuels in maritime shipping,” reports Hassan Ahmed for Engineeringness. “The research provides data that could help policymakers and industry leaders better assess the comparative costs and benefits of available fuel options,” explains Ahmed.
Graduate student Will Parker joins Dana Taylor of the USA Today podcast The Excerpt to discuss his research on the impact of climate change on satellites. “We're seeing a cooling effect in the upper atmosphere where most of our satellites are operating, and because of that cooling effect, we're seeing that the entire atmosphere is contracting, so it's retreating away from low Earth orbit where we rely on that atmosphere for drag on our satellites,” explains Parker. “The effect of that retreat, that shrinking of the atmosphere, is that it's not doing as good a job at cleaning out low Earth orbit, and again, we rely on that cleaning force because we have no other way to remove most of this debris.”
Anantha Chandrakasan, MIT’s chief innovation and strategy officer and dean of MIT’s School of Engineering, speaks with Boston Globe reporter Jon Chesto about the new MIT-GE Vernova Energy and Climate Alliance. “A great amount of innovation happens in academia. We have a longer view into the future,” says Chandrakasan. He adds that while companies like GE Vernova have “the ability to get products out quickly to scale up, to manufacture, we have the ability to think past the short-term. ... It’s super smart of them to surround themselves with this incredible talent in academia. That will allow us to make the kind of breakthroughs that will keep U.S. competitiveness at its peak.”
Chronicle visits Prof. Skylar Tibbits and the Self-Assembly Lab to see how they are embedding intelligence into the materials around us, including furniture, clothing and buildings. Prof. Caitlin Mueller and graduate student Sandy Curth are digging into eco-friendly construction with programmable mud by “taking a low-cost material and a really fast manufacturing system to make buildings out of very, very low climate impact materials.” Says Tibbits: “MIT is a really wild place, and most people know of it for its technical expertise…But what I am really inspired by is on the creative end, the design spectrum. I think the mix of those two is super special.” He adds: “We can ask the right questions and discover new science, and we can also solve the right problems through engineering.”
E&E News reporter Christa Marshall writes that the new MIT-GE Vernova Energy and Climate Alliance will “scale sustainable energy systems across the globe” and advance breakthrough low-carbon technologies.