40 advance-soil-structure-modeling Postdoctoral positions at University of Washington
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methods to advanced imaging techniques. Currently, a number of mathematical models exist to describe the onset and progression of Alzheimer's Disease and the effects of anti-amyloid therapies on disease
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metrics since 2000. 2. Assess the Effects of 3-D Urban Structure on Extreme Humid Heat: Analyze variations in humid heat using Landsat thermal bands, MODIS, and humidity data, modeling how urbanization
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synthesis procedures for the formation of porous materials and their organic linkers. Characterize structure and physical properties of materials and determine structure-property relationships with x-ray
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mechanisms underlying brain aging and age-related neurodegenerative diseases—including Alzheimer’s disease—using advanced spatial biology platforms and translational approaches. Job Description Primary Duties
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multidisciplinary approach, spanning basic biology and translational medicine using mouse models and patient samples, tackles complex questions with profound implications for human health. Projects are available
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diverse cardiovascular cell types from iPSCs, enabling advanced cardiovascular disease modeling and cell therapy applications (Nature Cardiovascular Research 2023; Circulation 2023; Circulation Research
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encouraged to apply: Biologists with mathematical, computational, or programming experience. Prior experience with mouse models, motivated to learn new techniques including advanced optical imaging
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for this position. Work Experience: No specific work experience is required for this position. Skills: Animal Models, Bioinformatic Analysis, Cell Cultures, Communication, Critical Thinking, Library Construction
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diverse cardiovascular cell types from iPSCs, enabling advanced cardiovascular disease modeling and cell therapy applications (Nature Cardiovascular Research 2023; Circulation 2023; Circulation Research
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(PET), functional MRI (fMRI), and electroencephalography (EEG), using advanced quantitative modeling techniques and artificial intelligence methodologies in brain diseases. The candidate will work