Energy synergy: MIT ignites CERAWeek
MIT representatives shared emerging energy technologies at an influential conference rife with world leaders.
A new look for nuclear power
A nuclear power plant that will float eight or more miles out to sea promises to be safer, cheaper, and easier to deploy than today’s land-based plants.
New manufacturing approach slices lithium-ion battery cost in half
Reinventing how these batteries are made also improves their performance and recyclability.
Toward tiny, solar-powered sensors
New ultralow-power circuit improves efficiency of energy harvesting to more than 80 percent.
New insights into carbon emissions in China
New research takes a look at whether policies can curtail the growth of harmful greenhouse gases.
Students advancing a future with carbon-free fusion
PhD candidates Adam Kuang and Alex Creely are thriving after their first year at MIT's Plasma Science and Fusion Center.
De-stressing lithium batteries
Modeling mechanical stress in solid-state lithium batteries yields insights into battery microstructure for MIT postdoc Giovanna Bucci.
MIT team creates ultracold molecules
At near absolute zero, molecules may start to exhibit exotic states of matter.
Faculty highlight: W. Craig Carter
Materials science professor develops algorithms to solve problems across disciplines, strengthens online teaching techniques, and contributes to scientific art.
A new tool measures the distance between phonon collisions
Tabletop setup provides more nuanced picture of heat production in microelectronics.
Thin coating on condensers could make power plants more efficient
Graphene layer one atom thick could quadruple rate of condensation heat transfer in generating plants.
Coding for cooling
Nuclear science and engineering graduate student Benjamin Magolan helps model improved coolant flow inside the core of a nuclear reactor.
Optical-chips team sweeps Clean Energy Prize
Team integrating fiber optics into computer chips takes home both grand prizes at annual contest.