12 requirements-engineering "https:" Postdoctoral research jobs at The Ohio State University
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requirements. Required Qualifications Ph.D. in Electrical and Computer Engineering, Computer Science Engineering, Biomedical Engineering, Integrated Systems Engineering, Mathematics, Statistics, or equivalent
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). Required Education and Experience A doctoral degree in biological/environmental science or water resource engineering is required. Experience with monitoring water quality and wetland systems is encouraged
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conditions. 2. Must be able to work at a computer for extended periods for data analysis, and manuscript preparation. 3. May require routine work with biological samples, including recombinant proteins and
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, mentor students, collaborate across disciplines, and help translate transformative research into real-world impact Required Education: PhD in Materials Science and Engineering, Chemical and Biomolecular
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reporting requirements on AI for Health research and projects. Required Qualifications Ph.D. in Biomedical Engineering, Computer Science, Electrical and Computer Engineering, Integrated Systems Engineering
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for disease treatment and cancer prevention, in combination with RNA and DNA packaging mechanisms, as well as exosome delivery technology. Required Qualifications: PhD in biophysics, chemistry, biochemistry
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Engineering, Materials Science and Engineering or a related field Desired Education: PhD in Welding Engineering or Welding Engineering with an additive manufacturing concentration Required Experience: Graduate
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, collaborate across disciplines, and help translate transformative research into real-world impact. Required Education: PhD in Chemical Engineering or related field Desired Experience: 3 years of prior research
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at conferences. Minimum Education Requirement: Doctorate (Academic) #1 Major: electrical engineering Experience : Required: Ph.D. in Electrical Engineering; experience with power electronics using SiC
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activation, cytotoxicity, and persistence. Additional methods may involve CRISPR-based perturbations, viral vector engineering, and immune cell manufacturing workflows relevant to CAR-based therapies. In vivo