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CNTs via CVD using varied catalyst formulations and growth conditions. Characterize CNTs using Raman spectroscopy, SEM/TEM, and elemental analysis. Investigate the influence of catalyst impurities (e.g
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. Nanoscale characterization: You will validate your lithographic patterns using advanced microscopy methods such as SEM, AFM, and TEM, ensuring reproducibility, uniformity, and sub-15 nm precision. Quantum
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. Train in cryo-TEM sample preparation, imaging, and interpretation, leading Nanoworx’ efforts in this area. Analyze and interpret data, delivering clear and concise reports, and contribute to team
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-mentioned research project Preparation and characterization of copper- and gold-based catalysts (e.g., XRD, XPS, Raman, UV-Vis, SEM/TEM) Investigation of spatially resolved catalytic behavior in a profile
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link structure-property relationships from DFT, MD, phase-field, TEM/SEM, and other multimodal datasets from simulation and experiment Develop benchmarking protocols and toolkits to evaluate AI models
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-of-the-art facilities at Adelaide Microscopy, including multiple transmission electron microscopes (TEM) such as a Glacios 200 kV Cryo-TEM. Additionally, resources available include the Phoenix high
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filamentous ring that contracts and hence deforms a liposome from a sphere- to a dumbbell shape. Using biophysical tools (fluorescence, AFM, TEM,..), we will study the CdvABC proteins from an archaeum
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/RDF knowledge graphs, SPARQL endpoints, and open benchmarking suites to guarantee FAIR, reusable research data Mine and link structure-property relationships from DFT, MD, phase-field, TEM/SEM, and
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supports and MEMS devices. You will also design and build versions of the MEMS devices for use in in situ TEM experiments involving gas and liquid environments. Together with other team members, you will
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measure the nanoscale structure using TEM, AFM, FRET, DIB, etc. W design the amino-acid sequence of the IDPs and TRs de novo from the bottom up and study these in biomimetic nanopores. The approach can be