17 phd-electrical-engineering PhD positions at The University of Iowa in United States
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to perform experiments in cultured cells, xenograft and genetically engineered mouse model of diseases using a combination of molecular, cellular, and biochemical techniques. Iowa City is one of the most
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. Education Requirement: PhD in analytical chemistry or a related field. Required Qualifications: Strong organizational skills and the ability to independently design and execute experiments. Exceptional
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of Engineering Department:Biomedical Engineering Salary Salary:Commensurate Position Details Full/Part Time Status:Full Time Percent Time:100% Position Description: Postdoctoral Research Scholar Roy J. Carver
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Professor, Associate Professor, or Full Professor level, commensurate with the individual’s previous experience. Applicants must have a PhD, MD, DO or equivalent doctoral degree from an accredited college
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, with a working knowledge of cancer biology. The selected candidate will be expected to work independently while interacting in a collaborative environment. Education Requirement: PhD, MD/PhD, or MD with
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://grad.uiowa.edu/postdoctoral-affairs Education Requirement: A PhD degree or equivalent in a biomedical related field Required Qualifications: A strong publication record and excellent references from graduate
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Professor The departments of Electrical and Computer Engineering in the College of Engineering and Radiation Oncology in the Carver College of Medicine at the University of Iowa seek a highly qualified
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cutting-edge technology, the selected candidate will aim to reveal the underlying mechanisms of T cell and innate immunity to influenza virus Education Requirement: PhD, MD/PhD or MD with significant bench
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, or infection. Candidates must have an MD and/or PhD degree, be a creative and motivated scientist planning a long-term career in scientific research, and possess a strong background in vascular biology
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inflammasome activation, autophagy and host defense. By using genetically modified animal models and cutting-edge technology, we aim to reveal the underlying mechanisms of LRRK2-mediated signaling in health and