Doping Powers New Thermoelectric Material
Researchers at Northwestern University have found that adding sodium produces material that is more efficient at converting heat to electricity.
Read more about Doping Powers New Thermoelectric Material
Researchers at Northwestern University have found that adding sodium produces material that is more efficient at converting heat to electricity.
Read more about Doping Powers New Thermoelectric MaterialRobert Baker, assistant professor, chemistry and biochemistry; is one of 50 outstanding young researchers from around the country—and Ohio State’s first—receiving 2015 Department of Energy Early Career Research Awards
Read more about Chemist Receives DOE Early Career Award: Ohio State’s FirstOlsen, who oversees all physics results produced by the CMS Collaboration, which consists of more than 2,500 physicists, discussed the discoveries that lay ahead at the LHC.
Read more about James Olsen: Perspective on the World's Biggest Particle Collider Coming Online AgainThanks to research by a team at MIT, the University of Arizona, and Brookhaven National Laboratory, new analysis shows how bombardier beetles produce an explosive defensive chemical jet.
Read more about How Some Beetles Produce a Scalding Defensive SprayGeoscientists at Penn State have used computer model experiments to show that the more temperatures increase, the faster the Greenland Ice Sheet will melt.
Read more about Greenland Plays Important Role In Polar Ice ResearchA team of physicists at the University of California, Riverside has found an ingenious way to induce magnetism in graphene while also preserving graphene’s electronic properties.
Read more about Researchers Make Magnetic GrapheneStudy at MIT finds a natural impediment to the long-term sequestration of carbon dioxide.
Read more about Sequestration on Shaky GroundA new process developed by a team of University of Michigan engineers can sprout microscopic spikes on nearly any type of particle may lead to more environmentally friendly paints and a variety of other innovations.
Read more about Spiky 'Hedgehog Particles' for Safer Paints, Fewer VOC EmissionsResults by researchers at Northwestern University indicate that silver nanowires could potentially withstand strong cyclic loads for long periods of time, which is a key attribute needed for flexible electronics.
Read more about Silver Nanowires Demonstrate Unexpected Self-Healing MechanismUsing one of the largest supercomputers in the world, a team of researchers led by the University of Minnesota has identified potential materials that could improve the production of ethanol and petroleum products
Read more about Researchers Identify Materials to Improve Biofuel and Petroleum ProcessingOne of the key holdups in the march toward more efficient sustainable energy could soon be answered thanks, in part, to UT researchers.
Read more about UT Engineers Helping ORNL with Key Sustainable Energy RiddleNorthwestern University researchers discovered a novel way to control the electronic band gap in complex oxide materials without changing the material’s overall composition.
Read more about New Method Allows for Greater Variation in Band Gap Tunability