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![OAK RIDGE, Tenn., Nov. 27, 2018—The Spallation Neutron Source at the Department of Energy’s Oak Ridge National Laboratory has broken a new record by ending its first neutron production cycle in fiscal year 2019 at its design power level of 1.4 megawatts. OAK RIDGE, Tenn., Nov. 27, 2018—The Spallation Neutron Source at the Department of Energy’s Oak Ridge National Laboratory has broken a new record by ending its first neutron production cycle in fiscal year 2019 at its design power level of 1.4 megawatts.](/sites/default/files/styles/list_page_thumbnail/public/news/images/2015-P05970%5B7%5D.jpg?itok=MK35c7c-)
The Spallation Neutron Source at the Department of Energy’s Oak Ridge National Laboratory has broken a new record by ending its first neutron production cycle in fiscal year 2019 at its design power level of 1.4 megawatts.
![AK_Steel_story-tip.jpg AK_Steel_story-tip.jpg](/sites/default/files/styles/list_page_thumbnail/public/AK_Steel_story-tip.jpg?itok=iW4s8JKK)
![Illustration of neutron diffraction data showing water distribution (red and white molecules) near lipid bilayers prior to fusion (left) and during fusion. Illustration of neutron diffraction data showing water distribution (red and white molecules) near lipid bilayers prior to fusion (left) and during fusion.](/sites/default/files/styles/list_page_thumbnail/public/news/images/18-G00796_Qian_MR%20Cell%20Fusion.png?itok=EgnT0Hak)
![Oak Ridge National Laboratory has signed a memorandum of understanding with the United Kingdom’s National Nuclear Laboratory to partner on various nuclear research and development efforts. Oak Ridge National Laboratory has signed a memorandum of understanding with the United Kingdom’s National Nuclear Laboratory to partner on various nuclear research and development efforts.](/sites/default/files/styles/list_page_thumbnail/public/NNL_MainImage.jpg?itok=8cSrtngA)
The United Kingdom’s National Nuclear Laboratory and the U.S. Department of Energy’s Oak Ridge National Laboratory have agreed to cooperate on a wide range of nuclear energy research and development efforts that leverage both organizations’ unique expertise and capabilities.
![David Kropaczek directs the Consortium for Advanced Simulation of Light Water Reactors, a Department of Energy Innovation Hub headquartered at Oak Ridge National Laboratory. David Kropaczek directs the Consortium for Advanced Simulation of Light Water Reactors, a Department of Energy Innovation Hub headquartered at Oak Ridge National Laboratory.](/sites/default/files/styles/list_page_thumbnail/public/2016-P07859%5B2%5D%5B1%5D.jpg?itok=NRe8pBsS)
![As protons (pink) strike the target vessel and pass into the liquid mercury inside, the protons are absorbed, creating neutrons (blue) that are then sent through moderators and beam tubes to research instruments to study the fundamental properties of mate As protons (pink) strike the target vessel and pass into the liquid mercury inside, the protons are absorbed, creating neutrons (blue) that are then sent through moderators and beam tubes to research instruments to study the fundamental properties of mate](/sites/default/files/styles/list_page_thumbnail/public/news/images/18-G00913_Target_Rumsey_blue.png?itok=RSbcm7J1)
![Lu Huang, USS industrial research engineer prepares a lightweighted advanced high strength steel component for neutron research at the Spallation Neutron Source’s VULCAN instrument. Lu Huang, USS industrial research engineer prepares a lightweighted advanced high strength steel component for neutron research at the Spallation Neutron Source’s VULCAN instrument.](/sites/default/files/styles/list_page_thumbnail/public/news/images/2018-P04505.jpg?itok=sLO5iUbz)
![Postdoctoral researcher Cory Knoot prepares a sample of blue-green algae for neutron scattering experiment on the Bio-SANS instrument at ORNL’s High Flux Isotope Reactor. Credit: Kelley Smith/Oak Ridge National Laboratory, U.S. Dept. of Energy Postdoctoral researcher Cory Knoot prepares a sample of blue-green algae for neutron scattering experiment on the Bio-SANS instrument at ORNL’s High Flux Isotope Reactor. Credit: Kelley Smith/Oak Ridge National Laboratory, U.S. Dept. of Energy](/sites/default/files/styles/list_page_thumbnail/public/neu.png?itok=iZWH06Xo)
![Default image of ORNL entry sign](/sites/default/files/styles/list_page_thumbnail/public/2023-09/default-thumbnail.jpg?h=553c93cc&itok=N_Kd1DVR)
![Illustration of a nitrogen dioxide molecule (depicted in red and gold) confined within a nano-size pore of an MFM-300(Al) metal-organic framework material as characterized using neutron scattering at Oak Ridge National Laboratory. Illustration of a nitrogen dioxide molecule (depicted in red and gold) confined within a nano-size pore of an MFM-300(Al) metal-organic framework material as characterized using neutron scattering at Oak Ridge National Laboratory.](/sites/default/files/styles/list_page_thumbnail/public/news/images/18-G00441_PR%20MFM%20Gas%20Separation%20Nature%20Materials%20cover%20adapted%20for%20news%20release.png?itok=Zng13-B8)
Led by the University of Manchester, an international team of scientists has developed a metal-organic framework material (MOF) that exhibits a selective, fully reversible and repeatable capability to remove nitrogen dioxide gas from the atmosphere in ambient conditions.