Where does bioenergy fit into a low-carbon future?
Study evaluates the impacts of a large-scale bioenergy ramp-up.
Study evaluates the impacts of a large-scale bioenergy ramp-up.
Mechanical engineering professor pursues a vision of a cleaner, more energy-efficient world.
From bike-mounted maize shellers to solar lamps, startup brings more efficient tools to rural Tanzania.
Startup’s thermal-imaging cars can quickly track energy leaks in thousands of homes and buildings.
Morgan Beck and Sarah Arveson contribute as interns to research in the Tisdale Lab.
MIT chemical engineering graduate student Mark Weidman and colleagues demonstrate how to synthesize lead sulfide nanocrystals of uniform size.
Understanding and controlling how energy moves in nanostructured materials such as quantum dots motivates assistant professor of chemical engineering William Tisdale.
Award honors work on real-time energy-efficient visual data processing for portable media, which will impact elderly-assistance and advanced driver-assistance systems.
EGG Energy brings solar-powered electricity to rural Tanzania, improving quality of life and the environment.
In inaugural Del Favero Doctoral Thesis Prize Lecture, Zach Hartwig PhD '14 explains why fusion research should be at the top of NSE's agenda.
Leaders to gather for keystone event at MIT next October.
Xtalic focuses on gold substitute, aluminum products following success with connector coatings.
Yuriy Román knew that to change the future of catalysis he’d have to cross the boundary between chemical engineering and materials science.
In Science, economists evaluate government’s proposed emissions policy for power plants.
Silvija Gradečak’s nanoscale work creates big-scale results that could transform energy production, storage, and lighting.