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are particularly interested in candidates with a strong background in advanced imaging, quantitative image analysis, and/or tissue morphogenesis and mechanics. If you are excited by the prospect of tackling
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, and phenotypes in disease-relevant contexts. Our research blends engineered 3D biomaterials with advanced imaging and molecular tools to elucidate biological mechanisms that can ultimately inform
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selection, wafer-level process development, and reliability demonstration to deliver a manufacturable 3D-integration solution that supports NTU’s leadership in industry-relevant advanced packaging research
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of the following: sensor modeling; surface reconstruction; InSAR and related high-resolution, rapid revisit optical systems; automated image matching and registration; error propagation; historical
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vascularized patient-derived organoid platform enabling intravascular dosing, real-time imaging, and downstream tissue retrieval for flow cytometry and single-cell/spatial profiling. The Lab works at
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on cell biophysical properties. To validate MRR as novel CQA in stem cell manufacturing. Key Responsibilities: Design and develop a microfluidic prototype to analyse the electrical signals of cells
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and additive manufacturing; • Proficiency in programming; • Proficiency in additive manufacturing-related software, including 3D modelling and path planning; • Ability to integrate sensors (e.g
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with a focus on complex shoulder girdle and chest wall pathology, alongside additional subspecialty topics. Our research program emphasizes advanced medical technologies, including 3D printing
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remodeling microglial responsivity in AD mouse models (Lee, Neuron , 2018, PMID: 29518357). Developing MORF method (akin to "genetic Golgi staining") and novel imaging/informatic pipeline for 3D whole brain
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, stem cell biology, RNA/chromatin biology, immunohistochemistry, immunology, sequencing analysis and bioinformatics, flow cytometry and imaging-based analyses, tissue processing, 3D/organoid culture, and