-
modeling. 80% research - The project focuses on developing theoretical models using optimization and information theory to improve understanding of plant hydraulic regulation at the leaf, plant, and
-
conferences (20%) Qualifications Required Qualifications: - A B.S. degree related to a biomedical field. Preferred Qualifications: - Advanced degree (PhD) in biomedical sciences or related field(s) - Experience
-
to optimize lab-specific protocols and run the protocols at a larger scale for prototype testing. The candidate is also expected to perform the biological testing detailed in the aforementioned protocols in
-
on application materials. Required Qualifications: • PhD in Immunology, Molecular Biology, or a closely related biomedical field • Strong foundation in cellular and molecular immunology, with demonstrated
-
on application materials. Required Qualifications: • PhD in Immunology, Cell Biology, or related biomedical sciences • In-depth scientific expertise in cell death, macrophage biology, and fibrotic disease
-
candidate will perform and lead cutting-edge research on advanced battery system architectures, optimal power management strategies, and second-life batteries for emerging sustainability applications
-
data pipelines Comply with data security guidelines Data analysis (25%) Data reduction of predictor and outcome measures Determine and implement optimal strategies for testing multiple hypotheses Utilize
-
Biosciences Research Laboratories, in close proximity to the state-of-the-art Biopharmaceutical Innovation & Optimization center, Higuchi Laboratories Animal Facility, Multidisciplinary Research Building, and
-
/AIDS prevention, and harm reduction strategies for drug overdose prevention. The lab combines decision-analytic modeling, economic evaluation, and quasi-experimental methods to evaluate and optimize