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, which will be used to implement high frequency and high efficiency IVRs for HPC applications. Objectives:-Fabrication, characterization and modeling of the composite magnetic materials.-Modeling
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on these materials, which will be used to implement high frequency and high efficiency IVRs for HPC applications. Objectives:-Fabrication, characterization and modeling of the composite magnetic materials.-Modeling
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healthy control subjects based on diffusion MRI and structural MRI images; Writing reports and/or manuscripts with details of the methods and results. Qualifications: The ideal candidate holds a Master’s
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, and state-of-the-art infrastructure. Our model empowers visionary leaders to accelerate drug development and harness AI-driven innovation to address unmet medical needs. Benefits of Working with Great
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to advancing forest management through innovative approaches that emphasize functional diversity and ecological connectivity. The research encompasses six interconnected themes that aim to enhance forest
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various photo-activated material using advanced techniques such as SEM-EDX, TEM, TGA, XRD, IR spectroscopy, and BET. Prototype Development: Design and develop UV-activated gas sensor prototypes, including
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materials, focusing on photo-activated material and solid solutions. Material Synthesis and Characterization: Synthesize and characterize various photo-activated material using advanced techniques such as SEM
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models of neurological disorders. PLoS Biology 2019 https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3000516 The project is a collaborative effort between the research groups of Majid