Learn about renewable energy technologies, advancements in traditional sources, and policies shaping a sustainable future.
MIT researchers leverage physics and machine learning to accurately predict plasma behavior in tokamak reactors, marking a significant milestone toward practical nuclear fusion energy.
U.S. electricity costs are climbing due to rising demand and energy transitions, but rates may stabilize as clean energy investments pay off.
AI's rapid growth is driving a surge in global data center energy consumption, projected to triple by 2030—posing challenges for sustainability despite tech giants' renewable energy commitments.
Discover how advanced plume abatement technology is transforming cooling towers by capturing water from vapor emissions, boosting efficiency and sustainability in thermal power plants.
Discover how shade impacts solar panel performance and whether 'shade-tolerant' panels live up to their claims. A critical review of Renology's latest technology.
Washington State University researchers unveil a corn protein innovation, boosting lithium-sulfur battery performance and sustainability.
Scientists in France achieve unprecedented stability in fusion reaction, holding it steady for over 22 minutes, marking a major milestone in clean energy.
Discover the potential of sacrificial cathode additives in sodium energy storage systems, highlighting recent advancements and future strategies.
Groundbreaking battery technology advancement promises to revolutionize energy storage, paving the way for a cleaner, more sustainable future.
Explore groundbreaking graphene-based thermoelectric materials revolutionizing sustainable energy-harvesting systems, as highlighted by leading researchers in Chem. Commun., 2025.
Proxima Fusion, with experts from MIT, Google, SpaceX, and McLaren, introduces Stellaris, a fusion reactor design aiming for rapid commercial viability in just six years.
Explore the future of solid electrolyte membrane reactors in energy, chemical, and environmental applications, highlighting their potential for sustainable innovations.
Explore the dual roles of Al2O3 coatings on NMC811 cathodes through comprehensive theoretical and experimental analysis.
Discover the groundbreaking superconducting material that could revolutionize energy with its magnetic levitation capabilities.
Argonne National Laboratory advances Gen-IV nuclear reactors, focusing on sodium-cooled fast reactors (SFRs) to meet growing energy demands.