Homing in on longer-lasting perovskite solar cells
A new approach to identifying useful formulations could help solve the degradation issue for these promising new lightweight photovoltaics.
A new approach to identifying useful formulations could help solve the degradation issue for these promising new lightweight photovoltaics.
Analysis quantifies a dramatic price drop that parallels similar improvements in solar and wind energy, and shows further steep declines could be possible.
New findings may help unleash the potential of high-powered, solid-electrolyte lithium batteries.
MIT Energy Fellow Richard Ibekwe finds flaws in high-temperature superconducting tapes so they can be measured, fixed, or embraced.
National Academies study says fusion can help decarbonize US energy, calls for public-private approach to pilot plant operation by 2035-40.
MIT’s Erica Salazar shows that faster detection of thermal shifts can prevent disruptive quench events in the HTS magnets used in tokamak fusion devices.
MIT Energy Fellow David Fischer irradiates high-temperature superconducting tape to test its resilience and prepare for the first pilot fusion plant.
MIT-Commonwealth Fusion Systems demonstration of new superconducting cable is a key step on the high-field path to compact fusion.
Website hosts an expanded suite of digital tools and resources to help people make sense of climate change.
Seven studies describe progress thus far and challenges ahead for a revolutionary zero-emissions power source.
“Our mission here is to save humanity from extinction due to climate change,” says MIT professor.
MIT and Northwestern researchers create hybrid perovskite materials that could help improve the quality of solar cells and light sources.
How energy-intensive economies can survive and thrive as the globe ramps up climate action.
Modeling study shows battery reuse systems could be profitable for both electric vehicle companies and grid-scale solar operations.
Graduate student Erica Salazar tackles a magnetic engineering challenge.