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Field
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/field personnel in research. Initial studies will focus on burn wounds, improving healing and assessing multiple wound factors using imaging and sensors. What you need to know Salary: Compensation will be
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states within the brain. Research Focus Areas: Our laboratory has three main research thrusts: 1. Engineered Cellular Sensors for Neurodegenerative Disease Detection and Treatment - Developing receptors
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(e.g., electrochemical and optical sensors) for molten salts, the development of innovative processes and technologies for recycling actinides to support sustainable fuel cycles, and the application
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on security and privacy in Telepresence Systems, including VR, MR, and XR technologies. This project focuses on integrating sensor data authenticate users and verify the authenticity of surrounding information
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mechanics using wearable sensors. • Models of bone health in running populations. • Models of tissue stress and strain in athletes. • Models of health and performance in female athletes. • Models of athlete
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, focusing on its roles in metabolic pathways essential for biosynthesis and redox balance. Our work explores how p53 functions as both a sensor and regulator of cellular metabolism. We are also identifying
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figures for publications and grants. Calcium imaging: Utilizing calcium dyes or genetically encoded calcium sensors (i.e. GCaMP) to measure and quantify intracellular calcium levels in a live brain slice
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force‑responsive probes, DNA‑based sensors, or advanced microscopy to understand mechanochemical signaling in cells. Operate and innovate with state‑of‑the‑art optical, fluorescence, and force
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EEG HydroCel Sensor system and Net Station software and interest in the microstructure of infant sleep would be a plus. The successful candidate is expected to lead their own project, support other
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needs. Tasks may involve CAD design, machining, and integration of sensors and control systems. Collaboration and Mentorship 5% Work collaboratively with faculty, graduate students, and other postdoctoral