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Position will be focused on laboratory work to advance new types of polymer membranes that can be utilized in CO2 separation and conversion. In addition, they will work on utilizing electrodialysis
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modeling; enhanced sampling methods; structural and functional materials design; statistical physics of materials; computational property prediction; bioinspired and biomimetic materials; non-equilibrium and
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understanding of lithium-ion battery systems and performance characteristics, and/or recycling operations for plastics and metals. The work will involve R&D on a broad range of separation technologies as
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reduction approaches and systems will be developed and implemented that operate close to instruments at the edge, and that leverage high-performance computing environments when needed. This position will be
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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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engines. The candidate will be a part of the Transportation and Power Systems Division within the Advanced Energy Technologies Directorate at Argonne. The successful candidate’s research will involve
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We invite applications for a postdoctoral position in the Separations and Bioprocessing Group in the Applied Materials Division at Argonne National Laboratory. In this role, the postdoctoral
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(H2, NH3). The successful candidate will leverage high-performance computing (HPC) resources at the Laboratory to perform CFD simulations of low-carbon fuel injection, mixing, combustion, and emissions
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fluxes in terrestrial wetlands. In this role you can expect to: Conduct studies to measure and partition wetland fluxes of greenhouse gases (GHG) at a site located in the Prairie Pothole region
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physics phenomenology. Members in the Particle Theory Group work on physics within and beyond the Standard Model, phenomenology at current and future colliders, as well as emerging areas in Artificial