Touchscreens, smart phones, liquid crystal displays and solar panels of tomorrow could be more efficient because of a new material profiled in a paper published in Scientific Reports.
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Steel unlike any forged in the last 2,000 years will be in the spotlight at the TMS 2016 Annual Meeting & Exhibition, Feb. 14-18 in Nashville.
An ultra-high-resolution technique used for the first time to study polymer fibers that trap uranium in seawater may cause researchers to rethink the best methods to harvest this potential fuel for nuclear reactors.
The work of a team led by Carter Abney,
The Department of Energy's Oak Ridge National Laboratory and Solid Power Inc. of Louisville, Colo., have signed an exclusive agreement licensing lithium-sulfur materials for next-generation batteries.
Designing alloys to withstand extreme environments is a fundamental challenge for materials scientists.
Engines, laptops and power plants generate waste heat. Thermoelectric materials, which convert temperature gradients to electricity and vice versa, can recover some of that heat and improve energy efficiency.
Electron microscopy at the Department of Energy’s Oak Ridge National Laboratory is pointing researchers closer to the development of ultra-thin materials that transfer electrons with no resistance at relatively high temperatures.
The study delivers direct
In the Stone, Bronze and Iron Ages, the state of the art of materials science defined technology’s zenith and accelerated economies.