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. The ideal candidate will have a strong background in modeling and simulation of atomic and molecular structures, along with extensive experience in analyzing the electronic and structural properties
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carburizing techniques to improve hardness, wear resistance, and fatigue life of metallic surfaces Perform advanced characterization of thin films, including structural, morphological, mechanical, and chemical
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as a Professor in Nuclear Magnetic Resonance Spectroscopy (NMR) and Structural Chemistry. The successful candidate will contribute to UM6P's commitment to excellence in teaching, research, and
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prediction AI-based reaction modeling and retrosynthetic analysis Data-driven approaches to spectroscopy and structural analysis Cheminformatics and chemical data mining Computational catalysis or process
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solutions. The research interests of the candidate should be focused on: Study fundamental mechanisms of electrochemical reactions and corrosion. Explore the relationship between material structure and
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conversion strategies and engineering processes (b) understanding and controlling their underlying specific functionalities and the structure-properties relationship acting over multiple length scales from
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, physical and chemical conversion strategies and engineering processes (b) understanding and controlling their underlying specific functionalities and the structure-properties relationship acting over
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thereof using biotechnological, physical and chemical conversion strategies and engineering processes (b) understanding and controlling their underlying specific functionalities and the structure-properties