Making the leap from lab to market
MIT Innovation Initiative aims to foster an even more consistent approach to building bridges from research findings to real world impact.
Materials Processing Center
Materials Processing Center marks 35 years
Service to faculty, collaboration with industry are hallmarks of campus-based Materials Processing Center at MIT.
Squitching behavior
MIT graduate student Farnaz Niroui demonstrates squeezable nano electromechanical switches with quantum tunneling function.
Cheap, flexible solar
Tuning energy levels through surface chemistry shows promise for higher efficiency quantum dot solar cells, MIT graduate student Patrick R. Brown's work shows.
New fibers can deliver many simultaneous stimuli
Implanted into the brain or spinal column, they can transmit drugs, light, and electrical signals.
Clocking energy-transfer rates in quantum dots
MIT chemistry graduate student Jolene Mork examines rates of excitonic-energy transfer.
Summer Scholars make an impact
Morgan Beck and Sarah Arveson contribute as interns to research in the Tisdale Lab.
Calling quantum dots to order
MIT chemical engineering graduate student Mark Weidman and colleagues demonstrate how to synthesize lead sulfide nanocrystals of uniform size.
Faculty highlight: William Tisdale
Understanding and controlling how energy moves in nanostructured materials such as quantum dots motivates assistant professor of chemical engineering William Tisdale.
Potash: Historical pathways to development
Diversity of sources and sustainable production methods are needed to meet world potassium fertilizer demand.
A renaissance in metals
Materials Day Symposium highlights breakthroughs in simulation methods, manufacturing techniques, and improved alloys.
Building on strength
Xtalic focuses on gold substitute, aluminum products following success with connector coatings.
Faculty highlight: Christopher Schuh
Metallurgist pushes grain boundaries: Nanostructured metal alloys deliver tougher materials, lower costs, and safer outcomes.
Stretching oxides to modulate electrochemical properties
Grad students Lixin Sun and Qiyang Lu are developing techniques for applying strain to materials to accelerate oxygen-reduction reactions for applications in solid-oxide fuel cells.
Keeping hydrogen from cracking metals
MIT postdoctoral associate Mostafa Youssef and graduate student Aravind Krishnamoorthy tackle different aspects of the problem at atomic scale.