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these mechanisms impact the final ceramic structure, bonding, and properties. The postdoctoral fellow will plan and lead in situ gas cell electron microscopy experiments using an aberration-corrected STEM. Primary
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of these positions will be electrochemical modeling of high-energy cells. The successful applicant will develop detailed physics- and chemistry-based transient mathematical models for cell charge and discharge, based
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. The project titles are: Fast-Charging, Wide-Temperature, Low-Cost, Durable Batteries Enabled by Cobalt- and Nickel-Free Cathodes and Cell Engineering. Fast-Charge, High-Energy-Density, Solid-State Battery. ARPA
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computational modeling. The postdoc will carry out daily research tasks in the lab, including maintaining cell culture, protein expression, and purification, running biochemical/biophysical assays, protein
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(multiphase flow, phase change materials, nanoscale transport), microfabrication, electrochemistry, microfluidic visualization methods, CFD/2-phase simulations, nanoscale thermal/electrical mobility simulations
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and mentors, and present and obtain feedback on their own research. Especially, the postdoc will have access to multiple industry partners with EHR, claims, and mobile health data, as well as the AIM