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Media Contacts
![Ben Doughty Ben Doughty](/sites/default/files/styles/list_page_thumbnail/public/Ben_Doughty_-_Laser_spectroscopist_-_YouTube.jpg?itok=AeMCjq6u)
![ORNL’s Xiahan Sang unambiguously resolved the atomic structure of MXene, a 2D material promising for energy storage, catalysis and electronic conductivity. Image credit: Oak Ridge National Laboratory, U.S. Dept. of Energy; photographer Carlos Jones ORNL’s Xiahan Sang unambiguously resolved the atomic structure of MXene, a 2D material promising for energy storage, catalysis and electronic conductivity. Image credit: Oak Ridge National Laboratory, U.S. Dept. of Energy; photographer Carlos Jones](/sites/default/files/styles/list_page_thumbnail/public/Sang_2016-P07680_0.jpg?itok=w0e5eR_U)
Researchers have long sought electrically conductive materials for economical energy-storage devices. Two-dimensional (2D) ceramics called MXenes are contenders. Unlike most 2D ceramics, MXenes have inherently good conductivity because they are molecular sheets made from the carbides ...
![Water is seen as small red and white molecules on large nanodiamond spheres. The colored tRNA can be seen on the nanodiamond surface. Image by Michael Mattheson, OLCF, ORNL Water is seen as small red and white molecules on large nanodiamond spheres. The colored tRNA can be seen on the nanodiamond surface. Image by Michael Mattheson, OLCF, ORNL](/sites/default/files/styles/list_page_thumbnail/public/new_nanodiamond_0001.png?itok=xf_EGVvD)
![3-D visualization of chemically-ordered phases in an iron-platinum (FePt) nanoparticle. 3-D visualization of chemically-ordered phases in an iron-platinum (FePt) nanoparticle.](/sites/default/files/styles/list_page_thumbnail/public/Oak_Ridge_Leadership_Computing_Facility.jpg?itok=i3nCCoBB)
Barely wider than a strand of human DNA, magnetic nanoparticles—such as those made from iron and platinum atoms—are promising materials for next-generation recording and storage devices like hard drives. Building these devices from nanoparticles should increase storage capaci...
![A simulation shows the path for the collision of a krypton ion (blue) with a defected graphene sheet and subsequent formation of a carbon vacancy (red). Red shades indicate local strain in the graphene. Image credit: Kichul Yoon, Penn State A simulation shows the path for the collision of a krypton ion (blue) with a defected graphene sheet and subsequent formation of a carbon vacancy (red). Red shades indicate local strain in the graphene. Image credit: Kichul Yoon, Penn State](/sites/default/files/styles/list_page_thumbnail/public/news/images/graphene_defect1.jpg?itok=2KdyjJb0)
![A 32-face 3-D truncated icosahedron mesh was created to test the simulation’s ability to precisely construct complex geometries. A 32-face 3-D truncated icosahedron mesh was created to test the simulation’s ability to precisely construct complex geometries.](/sites/default/files/styles/list_page_thumbnail/public/nn-2016-021085_0009_0.jpeg?itok=ZRBSAZox)
![In conventional, low-temperature superconductivity (left), so-called Cooper pairing arises from the presence of an electron Fermi sea. In the pseudogap regime of the cuprate superconductors (right), parts of the Fermi sea are “dried out” and the charge-ca In conventional, low-temperature superconductivity (left), so-called Cooper pairing arises from the presence of an electron Fermi sea. In the pseudogap regime of the cuprate superconductors (right), parts of the Fermi sea are “dried out” and the charge-ca](/sites/default/files/styles/list_page_thumbnail/public/maier_image.png?itok=aGk3XL3v)
![Department of Energy national lab researchers found strain dramatically influences low-temperature oxygen electrocatalysis on perovskite oxides, enhancing bifunctional activity essential for fuel cells and metal–air batteries. Department of Energy national lab researchers found strain dramatically influences low-temperature oxygen electrocatalysis on perovskite oxides, enhancing bifunctional activity essential for fuel cells and metal–air batteries.](/sites/default/files/styles/list_page_thumbnail/public/news/images/bifunctional%20catalysis-Lee.jpg?itok=U0L_rWaH)
Catalysts make chemical reactions more likely to occur. In most cases, a catalyst that’s good at driving chemical reactions in one direction is bad at driving reactions in the opposite direction. However, a research team led by the Department of Energy’s Oak Ridge National Laboratory ...
![In unbound calyx[4]pyrrole, two pyrrole “petals” are flipped up and two, down. In unbound calyx[4]pyrrole, two pyrrole “petals” are flipped up and two, down.](/sites/default/files/styles/list_page_thumbnail/public/news/images/anion_hr5_0.jpg?itok=sGtLzH0E)
Atomic charges in chemical solutions are like Switzerland—they strive for neutrality. The tendency to balance charges drives dynamics when charged atoms or molecules, called ions, are present in solutions. Recently, researchers at the Department of Energy’s Oak Ridge National Laborat...
![Oak Ridge National Laboratory researchers made a molecule that could selectively bind to metals in the middle of the lanthanide series. Oak Ridge National Laboratory researchers made a molecule that could selectively bind to metals in the middle of the lanthanide series.](/sites/default/files/styles/list_page_thumbnail/public/news/images/2007-P05930.jpg?itok=3VmmI1ab)
Rare earth elements are metals used in technologies from wind turbines and magnetic resonance imaging agents to industrial catalysts and high-definition televisions. Most are lanthanides, elements with atomic number from 57 to 71, lanthanum to lutetium, in the periodic table. The la...