Researchers at MIT have developed electron-conducting carbon concrete, a new kind of cement “that can store and release electricity like batteries,” reports Matthew Burgos for Design Boom. “MIT’s concrete battery shows a future where the material can be embedded into roads or parking areas to charge electric vehicles directly, or for off-grid homes that do not need external power,” Burgos explains.
Writing for Forbes, Senior Lecturer Guadalupe Hayes-Mota '08, SM '16, MBA '16 emphasizes the importance of implementing ethical frameworks when developing AI systems designed for use in healthcare. “The future of AI in healthcare not only needs to be intelligent,” writes Hayes-Mota. “It needs to be trusted. And in healthcare, trust is the ultimate competitive edge.”
MIT researchers have developed a new model that illustrates the chemical mechanisms underlying lithium-ion batteries, reports Gayoung Lee for Gizmodo. The findings could “lead to faster, more efficient batteries for electric vehicles, portable electronics, and more.”
Leah Ellis, a former MIT postdoc and co-founder of MIT startup Sublime Systems, speaks with Nature reporter Jacqui Thornton about the creation of the company. “I felt that the word Sublime encapsulated the spirit of excellence, transcendence and purity that we intend to exemplify as we build a technology and a company that we hope will change the world — and the inherent properties of cement itself.”
Prof. Steve Leeb and graduate student Daniel Monagle speak with Tech Briefs reporter Edward Brown about their work “designing an energy management interface between an energy harvesting source and a sensor load that will give the best possible results.” Monagle notes that in the future they hope to make the system “smaller so that it can fit in tight places like inside a motor terminal box. But beyond that we want to take advantage of AI tools to design techniques for minimizing the energy used by the system.”
In an effort to better understand how protein language models (PLMs) think and better judge their reliability, MIT researchers applied a tool called sparse autoencoders, which can be used to make large language models more interpretable. The findings “may help scientists better understand how PLMs come to certain conclusions and increase researchers’ trust in them," writes Andrea Luis for The Scientist.
ABC News reporter Will Reeve spotlights the AGNES, a suit developed by MIT AgeLab researchers in an effort to help wearers experience the effects of aging on the body. “One of the greatest challenges that we’ve uncovered here at the AgeLab and elsewhere is that we really can’t envision our future self,” says Joseph Coughlin, director of the AgeLab. “If everyone could wear AGNES, they would be in better touch with what their future self is, and what I would hope is they would invest in themselves physically [and] cognitively.”
Prof. Caitlin Mueller has been named Innovator of the Year by Architectural Record for her work advancing a “vision for building design and construction that unites these disciplines with computation to create structure that are sustainable, high performing, and delightful,” reports Architectural Record. “Her group develops computational design and digital fabrication methods that integrate efficiency, performance, material circularity, and architectural expression,” Architectural Record notes. “This work spans robotic assembly of optimized trusses, fabrication of low-cost earthen and concrete systems, and algorithmic strategies for reusing salvaged wood and reassembled concrete parts.”
The MIT Museum presents “Remembering the Future,” a new installation by artist Janet Echelman in collaboration with Prof. Caitlin Mueller, reports Kat Barandy for DesignBoom. The installation suspends above the museum’s grand lobby and will be open to the public through fall 2027. “The work transforms climate data into a three-dimensional form that invites visitors to engage both visually and conceptually,” Barandy explains.
Researchers at MIT have developed magnetic transistors, “which could enable faster and more energy-efficient semiconductors,” reports Alex Knapp for Forbes. “Researchers have been trying to use magnets this way for years, but the materials used so far haven’t been optimal for computing functions,” explains Knapp. “That changed after experimenting with chromium sulfur bromide, which replaces the silicon in a conventional microchip and enables the transistors to be switched on and off with an electric current.”
Visiting Scholar Ariel Ekblaw SM '17, PhD '20 speaks with WBUR’s On Point host Meghna Chakrabarti about her academic career, the space industry and her new non-profit company the Aurelia Institute. The company is “dedicated to building humanity’s future in space for the benefit of the earth,” says Chakrabarti. Additionally, the company plans to use “space infrastructure, satellites, and large scale space structures in orbit to do really profound things for day-to-day life on Earth,” adds Ekblaw.
According to the U.S. News & World Report rankings for 2025-2026, MIT has been named the No. 2 best university in the United States, reports Madison Lucchesi for Boston.com.
MIT has been named the second best university in the United States, according to the U.S. News and World Report rankings for 2025-2026, reports Alan Blinder for The New York Times.
U.S. News & World Report has named MIT the number two best university in the United States for 2025-2026, reports Emily Sweeney for The Boston Globe. The rankings “evaluated more than 1,700 colleges and universities in the United States, using up to 17 measures of academic quality and graduate success,” adds Sweeney.
MIT has been named the number two college in the United States in U.S. News & World Report’s annual ranking, reports Alia Shoaib for Newsweek. “U.S. News & World Report ranks more than 1,700 colleges using a weighted formula that considers factors such as graduation and retention rates, faculty resources, academic reputation, financial resources and student selectivity,” explains Shoaib.