10 Materials Science Postdoctoral positions at Oak Ridge National Laboratory in united States
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and industry partners focused on material research and development through computational modeling and multimodal characterization. As a U.S. Department of Energy (DOE) Office of Science national
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scattering research, each year carrying out more than 1,000 experiments in the physical, chemical, materials, biological and medical sciences. HFIR also provides unique facilities for isotope production and
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experiments in the physical, chemical, materials, biological and medical sciences. HFIR also provides unique facilities for isotope production and neutron irradiation. To learn more about Neutron Sciences
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measure success. Basic Qualifications: A PhD in chemistry, materials science, ceramic engineering, chemical engineering, or a closely related field completed within the last 5 years. A minimum of 2 years
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Structures and Processing Section, Materials Sciences and Technology Division, Physical Sciences Directorate at ORNL. More information about our research programs in this Section may be found at https
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broader mission to accelerate scientific discoveries and their translation into energy, environment, and security solutions for the nation. The Materials and Chemistry Group (MCG) within the Nuclear
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success. Basic Qualifications: PhD in physics, materials science, or related discipline completed within the last five years. Background in one or more of neutron scattering, X-ray scattering
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Requisition Id 13108 Overview: As a U.S. Department of Energy (DOE) Office of Science national laboratory, ORNL has an extraordinary 80-year history of solving the nation’s biggest problems. We
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nuclear and chemical sciences and engineering, applied materials, sophisticated manufacturing, biosecurity, transportation, and computing. Our multi-disciplinary research teams are passionate about
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the only material enabling enrichment for fuel elements in power reactors. This call focuses on advancing the understanding of the chemistry and materials compatibility behavior of uranium hexafluoride