61 postdoc-in-nanoparticles-density-functional-theory Postdoctoral positions at Argonne
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We are seeking a Postdoctoral Appointee to work in the Mathematics and Computer Science (MCS) Division of the Computing, Environment, and Life Sciences directorate (CELS) of Argonne National
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the Hadronic Physics Team, part of the Medium Energy Group in the Physics Division, comprising nine staff members, two engineers, and postdocs and students. Our diverse program includes leading electron
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for holotomography and to perform dynamic experiments using the Projection X-ray Microscope (PXM) instrument for studying microelectronics. As part of a collaborative team, the successful candidate will participate in
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The Nuclear Technologies and National Security Directorate (NTNS) is seeking a highly qualified and motivated Postdoctoral Researcher specializing in energy economics. This role is pivotal in
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-house codes and making use of high-performance computing (HPC) tools. Position Requirements Recent or soon-to-be-completed PhD (typically completed within the last 0-5 years) in mechanical, aerospace
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. The successful candidate will have the opportunity to work with interdisciplinary research teams, collaborate with universities, industry, and national laboratory partners, and contribute to the development
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to understand molecular-scale processes occurring at aqueous-electrode interfaces associated with water purification in the AMEWS EFRC. This will be achieved through the use and application of various interfacial
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to contribute to cutting-edge research in catalysis, with a focus mechanistic investigation of surface effects in non-traditional catalyst systems In this role you will • Conduct research as part of a
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The Energy Systems and Infrastructure Assessment (ESIA) division provides the rationale for decision makers to improve energy efficiency. We develop and use analytic tools to help the U.S. achieve
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magnetic thin films, patterned structures, and complex interfaces. In this advertised role, you will be conducting real-space imaging of magnetic heterostructures using LTEM to understand spin textures and