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deposition (Li, Na, Zn) and the synthesis and characterization of composite polymer electrolytes and solid state batteries using a wide variety of structural, chemical, and electrochemical characterization
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practical computational experience Knowledge of thermochemistry and state-of-the-art composite electronic structure computational approaches Considerable knowledge of gas-phase chemical physics, chemical
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include high temperature metallic alloys, including stainless steels and nickel-based superalloys, monolithic ceramics like silicon carbide and MAX phase materials, and ceramic matrix composites, including
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the evolution of chemical composition and particle morphology during the synthesis processes. The candidate will be reporting to their supervisor in the Applied Materials Division (AMD) within the Advanced Energy
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able to determine how reactor conditions impact resulting materials and develop methodologies to reliably control particle composition and morphology. As part of Materials Engineering Research Facilities