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environments. Analyze products for impurity content through techniques such as XRD and SEM-EDS to ensure that products meet sponsor requirements. Communicate effectively with supervisors, peers, and Laboratory
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, impedance analyzers, gas flow systems, and temperature-controlled test stations. Perform materials and surface characterization (e.g., SEM, TEM, XRD, XPS, BET, Raman, FTIR). Analyze and interpret
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using techniques such as BET surface area and pore size distribution, TPR/TPO/TPD, TGA, XRD, Raman, XPS, ICP-MS, SEM and TEM. b. Conduct catalytic testing in high-pressure reactors and analyze product
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, data acquisition hardware. Data Acquisition: Execute complex experiments involving high-bandwidth electrical measurements and advanced microscopy imaging (i.e., AFM and SEM) Signal Processing: Develop
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to conduct advanced characterization (Magnetometers, XRD, SEM/EDS/TEM, ICP-OES/MS, DSC/TGA-GC-MS; etc.). Proven experience and ability in technical writing and communication skills; ability to defend methods
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/ Cellular Imaging: Candidates with hands-on experience in cryo-electron microscopy–based methods, including high-resolution single-particle reconstruction and/or cryo-electron tomography with FIB-SEM
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. soils, plants, subaquatic sediments or similar matrices) Strong laboratory skills and a working knowledge of other solid phase characterization methods for metals (e.g. XRD, FTIR, XPS, SEM/TEM, ICP-MS
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engine modeling code. Perform high-fidelity CFD simulations of turbulent and reacting flows pertaining to gas turbines and detonation engines using spectral element method (SEM). Perform scalability
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into photonic or electronic systems Hands-on experience with SEM, AFM, TEM, and other characterization tools Demonstrated ability to work independently and collaboratively in a multidisciplinary environment
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designing and operating thermal/fluid systems using high-temperature furnaces is desired. Experience with material characterization such as XRD, SEM, micro-CT scan etc. is desired. Expertise in experimental