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![This is an example of the decorative pattern formed on a surface of an austenitic alloy single crystal. This is an example of the decorative pattern formed on a surface of an austenitic alloy single crystal.](/sites/default/files/styles/list_page_thumbnail/public/06%20steel%20tip.jpg?itok=Dz5dMZli)
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.
![Cantilever schematic: Schematic representation of the atomic force microscope interacting with the material surface. (Credit: Rama Vasudevan, ORNL) Cantilever schematic: Schematic representation of the atomic force microscope interacting with the material surface. (Credit: Rama Vasudevan, ORNL)](/sites/default/files/styles/list_page_thumbnail/public/news/images/cantilever-schematic%5B1%5D_0.jpg?itok=kM_EpMlx)
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Unexpected behavior in ferroelectric materials explored by researchers at the Department of Energy’s Oak Ridge National Laboratory supports a new approach to information storage and processing.
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Better batteries, catalysts, electronic information storage and processing devices are among potential benefits of an unexpected discovery made by Oak Ridge National Laboratory scientists using samples isolated from the atmosphere.
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Scientists at the Department of Energy's Oak Ridge National Laboratory have designed and tested an all-solid lithium-sulfur battery with approximately four times the energy density of conventional lithium-ion technologies that power today's electronics.