Making nuclear energy safer and more affordable
Galvanized by the Fukushima Daiichi nuclear disasters, PhD student Xingang Zhao envisions a future with safe, efficient nuclear power.
Galvanized by the Fukushima Daiichi nuclear disasters, PhD student Xingang Zhao envisions a future with safe, efficient nuclear power.
MIT study finds synapses develop strength with calcium, maturation.
Drugs carried in cellular “backpacks” help T cells to destroy tumors.
Folding and cutting thin metal films could enable microchip-based 3-D optical devices.
Laboratory for Nuclear Science project selected to explore machine learning for lattice quantum chromodynamics.
Machine-learning model could help chemists make molecules with higher potencies, much more quickly.
Given a video of a musical performance, CSAIL’s deep-learning system can make individual instruments louder or softer.
Improved design may be used for exploring disaster zones and other dangerous or inaccessible environments.
Water-starved areas could find new sources by desalinating water that’s much less salty than seawater.
MIT neuroscientists find posterior parietal cortex region is crucial to connecting perception to action.
MIT-developed process could offer nontoxic alternative to environmentally harmful chemicals.
MIT researchers develop new tools to enable targeted delivery of drugs to deep brain structures through implanted microprobes.
Researchers identify the amino acid aspartate as a metabolic limitation in certain cancers.
Machine learning network offers personalized estimates of children’s behavior.