A better way to tell which species are vulnerable
New analysis takes account of natural fluctuations and predictability to assess which parts of an ecosystem are most threatened by climate change and other disruptions.
New analysis takes account of natural fluctuations and predictability to assess which parts of an ecosystem are most threatened by climate change and other disruptions.
New MIT tool pinpoints policy combinations that maximize health benefits.
Graduate student Skylar Dannhoff discovers the collaborative world of fusion research.
Research Scientist Emre Gençer describes natural gas–based hydrogen production with carbon capture and storage, and the role hydrogen will play in decarbonizing our energy systems.
MIT spinoff Takachar converts agricultural waste into clean-burning fuel, and wins Earthshot Prize.
New position paper calls for getting stakeholders involved in wind power projects from the start.
Assistant Professor Ariel Furst and her colleagues are looking to DNA to help guide the process.
MIT engineers are controlling pore openings for maximum molecule capture.
Made from inexpensive, abundant materials, an aluminum-sulfur battery could provide low-cost backup storage for renewable energy sources.
Joy Dunn ’08 helps solve the world’s greatest climate challenges while creating an open and equitable working environment.
A new study estimates potential losses by 2050 amid low-carbon energy transition.
By modeling the conditions of an entire wind farm rather than individual turbines, engineers can squeeze more power out of existing installations.
High school student Tuba Balta engages new audiences through her MIT internship.
Study highlights pathways to cut emissions and lower climate and health risks.
MIT spinout Quaise Energy is working to create geothermal wells made from the deepest holes in the world.