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engineering, civil engineering, computer science, electrical engineering, data science, etc.). · Demonstrated research experience (≥1 year) in transportation engineering or related areas
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/i/a screening, single-cell multiomics, tissue engineering, and animal models. Our current research primarily focuses on four key areas: 1) Developing robust, chemically defined differentiation
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interdisciplinary lab group investigating tendon injury and healing. Current projects within the lab span from human subjects research to the study of ex vivo tissues and preclinical models. This position is
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. Qualifications Required Qualifications: Completed PhD in biomedical engineering, electrical engineering, physics, or a medical imaging related field. Experience with developing advanced pulse sequences
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) technology. The approach relies on high-loss loopback couplers and polarization-resolved optical frequency domain reflectometry to sense beyond the optical repeaters on submarine telecommunication cables with
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to work on next-generation electric propulsion concepts for very-low-Earth orbit (vLEO) satellites. The goal of this project is to improve the science and technology of electric propulsion concepts
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for Protein Design (IPD) in Seattle. TheInstitute for Protein Design (IPD) is creating a new world of synthetic proteins to address 21st-century challenges in medicine, energy, and technology. The IPD is a
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for Protein Design (IPD) in Seattle. The Institute for Protein Design (IPD) is creating a new world of synthetic proteins to address 21st-century challenges in medicine, energy, and technology. The IPD is a
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responsible for fabrication, characterization (both electrical and acoustic) and pre-clinical implementation (as part of a team performing both ex-vivo and large animal in-vivo studies) of catheter-based
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for tuberculosis that detects cell-free DNA in easily accessible urine samples. Our recent work is getting significant attention from clinical researchers and technology developers, and we aim