Two giant planets, made of the same elements, display radically different storms at their poles. New research from MIT now suggests that the key to this...
Under what conditions can ammonia truly become a low-carbon energy solution? MIT researchers attempt to resolve this
As ESG rhetoric becomes increasingly sophisticated, measurable climate outcomes continue to lag behind corporate promises. From net-zero pledges to digital green narratives, the growing “Talk–Walk Gap”...
2025 Wasn’t Just Hot — It Pushed the World to the Edge of Climate Survival
A new study finds that policy choices on expanding the U.S. electricity grid could either make the system cheaper and cleaner or more reliable against extreme...
New observations reveal a towering column of superheated gas and confirm long-suspected features of a rare “intermediate polar” system.
MIT researchers have developed a breakthrough algorithm that identifies the smallest dataset needed to guarantee optimal decisions in complex real-world systems.
Physicists have directly observed unconventional superconductivity in magic-angle twisted tri-layer graphene using a new experimental platform, revealing a unique pairing mechanism
MIT engineers create a high-temperature stable palladium membrane, a breakthrough that could revolutionize clean hydrogen production
How do earthquakes spend their energy? MIT’s latest research shows heat—not ground motion—is the main outcome of a quake, reshaping how scientists understand seismic risks
