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, degradation mechanisms, and electrochemical performance, utilizing a variety of synthesis techniques and advanced structural and electrochemical characterization methods. The appointee will work closely with
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at Materials Engineering Research Facility (MERF) and collaborators inside and outside Argonne. The candidate is expected to design and conduct experiments, analyze data and explore mechanisms behind
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automotive, aerospace, and ground power fuel injection and HVAC systems using Argonne’s Advanced Photon Source, including x-ray radiography, tomography, and high-speed imaging. The successful candidate will
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investigate the relationship between the physical and chemical properties of sulfur cathodes and their electrochemical performance. Experience with various electrolytes, including both liquid and solid
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(nano-CT) will be employed to understand the nature of the active OER catalytic sites and the reaction mechanism Position Requirements This level of knowledge is typically achieved through formal
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quantum information. The scalable design, synthesis, and control of materials capable of hosting quantum states, such as silicon carbide and diamond, play an integral role in solid state platforms
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structural materials (both metals and ceramics), computational solid mechanics, and thermohydraulics. The successful candidate will develop automated frameworks for finite element analysis of high temperature
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. The project involves understanding and describing the interplay between the electrochemical and mechanical processes at metal-anode/solid-electrolyte and cathode/solid-electrolyte interfaces. The successful