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for completing complex tasks, such as designing, parameterizing, and assessing simulations. The candidate will be expected to research and develop novel approaches for LLM-based agentic code generation and
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unit operations performed in molten salt electrolytes. As a part of this team, you will: Perform integrated system modeling and data analyses to develop and apply complex flowsheets and process models
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objectives and performance targets. Develop or modify electrode materials, membranes, or other components to enhance separation performance. Collaborate with multidisciplinary teams to scale electrochemical
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) for applications in High-Energy Physics (HEP). We seek highly qualified candidates with experience in ML algorithms including unsupervised techniques. The candidate is expected to lead an effort to prepare
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candidate will develop computational models at the mesoscale or macroscale level using the principles of mass, momentum, and energy balance, to describe morphology changes, dendrite growth, side reactions
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The Low-Energy Nuclear Physics Research Group (LER) of the Physics Division at Argonne National Laboratory seeks outstanding individuals to fill an open postdoctoral position to develop and conduct
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(HPC). In addition, the prospective postdoctoral appointee will develop reduced-complexity models for accurate prediction of fluid dynamical systems for the purposes of increasing computational
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The X-ray Science Division (XSD) at Argonne National Laboratory invites applications for a postdoctoral researcher position to develop novel X-ray diffraction techniques for 3-dimensional imaging
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The Chemical Sciences and Engineering Division is seeking a Postdoctoral Appointee to mainly conduct research to develop high-energy and long-life all-solid-state lithium metal batteries using
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cathode design, electrolyte development, interface engineering, cell assembly and testing. The candidate is expected to develop new processes to fabricate cathode and electrolyte, and new procedures