125 phd-in-concrete-and-structural-engineering Postdoctoral positions at Oak Ridge National Laboratory
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Structural Biologist to join a multi-disciplinary research team in development and application of paramagnetic labeling and proton polarization techniques for structure analysis! This project involves multi
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the Energy Science and Technology Directorate. Through its energy efficiency & decarbonization technical assistance programs, the MEERA group develops a diverse portfolio of industrial energy efficiency tools
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PhD in materials science, chemistry, chemical engineering, or a related field completed within the last 5 years Preferred Qualifications: A strong background and experience in modeling liquid systems
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Postdoctoral Research Associate - Structural Simulation and Machine Learning (ML) for Polymer Compos
, work together, and measure success. Basic Qualifications: A PhD in Materials Science and Engineering, Mechanical Engineering, Polymer Science and Engineering, or a related field completed within the last
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diversity, equity, inclusion, and accessibility by fostering a respectful workplace – in how we treat one another, work together, and measure success. Basic Qualifications: A PhD in Mechanical Engineering
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– in how we treat one another, work together, and measure success. Basic Qualifications: PhD in Engineering, Physics, Environmental Science, or related discipline completed within the last 5 years
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Requisition Id 13188 Overview: We are seeking a Postdoctoral Research Associate who will develop and apply computational methods based on electronic structure theory approaches with emphasis
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, and accessibility by fostering a respectful workplace – in how we treat one another, work together, and measure success. Basic Qualifications: A PhD in physics or electrical engineering, or a related
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the Energy Science and Technology Directorate. Through its energy efficiency & decarbonization technical assistance programs, the MEERA group develops a diverse portfolio of industrial energy efficiency tools
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using 3D characterization techniques, 2) establishing connections between material structure and mechanical properties, 3) predicting the behavior of ceramics under extreme environments. Moreover