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the emphasis of the position will be on the development of nanomaterials for AM and understanding of AM process optimization, functional materials design and compositional grading, electrochemical and
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characterization and/or monitoring. The computational activities will include computational approach for additive manufacturing process design, monitoring, and control and modeling for material evolution. The skills
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significant achievements across theoretical and experimental projects, from astronomy to condensed matter, and extending into cross-disciplinary fields, reflecting our unwavering commitment to advancing
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the reconstruction of fungal secondary metabolite pathways in a plant host. The project is highly interdisciplinary and will require knowledge and experience of molecular biology, cell biology, and analytical
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in the development of projects/activities related to powder processing and alloy development for AM within CAAAM (caaam.unt.edu), a State of Texas funded multimillion dollar initiative with a
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include the day-to-day management of the project, manuscript and proposal writing, presenting original research internally and externally at meetings and conferences, and mentoring students
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behavior tests, and involvement in the experimental design of the studies. Minimum Qualifications Doctoral degree. If not yet conferred, a letter from the school's official Graduate Office and/or Registrar's
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mentoring students and/or early-career professionals in a research or academic setting. Development of independent research projects, including experimental design, data analysis, and effective communication
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of biologically and pharmaceutically important molecules. The postdoctoral project will involve work in synthetic organic chemistry, organometallic chemistry, and homogeneous catalysis, including asymmetric
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design. The primary focus of the lab is on G protein-coupled receptors (GPCRs), particularly those involved in cardiovascular and hormone signaling pathways. Using multiscale simulations—combining