A layered approach to safety
Using 3D fabrication, researchers develop novel nuclear materials that optimize both accident tolerance and performance.
Using 3D fabrication, researchers develop novel nuclear materials that optimize both accident tolerance and performance.
“Gold standard” material for generating oxygen from water divulges its molecular mechanisms.
Abigail Ostriker ’16 and Addison Stark SM ’10, PhD ’15 share how their experiences with MIT’s energy programs connect them to the global energy community.
Chemical engineers take a step toward generating ammonia with small-scale, electrochemical reactors.
Prestigious honor society announces more than 250 new members.
Online panel discussion hosted by MIT explores best practices for mitigating climate-related risk.
The Electricity Strategy Game is a prominent feature in 15.0201/14.43 (Economics of Energy, Innovation, and Sustainability).
Meet the team of postdocs developing the MIT Energy Initiative's energy life-cycle assessment tool.
With support from renewable energy sources, the MIT research scientist says, we can consider hydrogen fuel as a tool for decarbonization.
Speakers at MIT climate symposium outline the steps needed to achieve global carbon neutrality by midcentury.
Aerogels for solar devices and windows are more transparent than glass.
Starting with higher-value niche markets and then expanding could help perovskite-based solar panels become competitive with silicon.
Researchers are devising new methods of synthesizing chemicals used in goods from clothing, detergents, and antifreeze to pharmaceuticals and plastics.
Solar panel costs have dropped lately, but slimming down silicon wafers could lead to even lower costs and faster industry expansion.