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Field
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. This candidate will be expected to work in a team consisting of chemist, biologists and material scientists. Key Responsibilities: Conduct advanced characterization on porous particles including SEM/BET/etc
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testing, or microstructural characterisation (SEM, XRD, Raman, TGA, DSC, etc.) is highly advantageous. Good written and oral communication skills Ability to work independently while contributing
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statistical techniques (e.g., multilevel modeling, SEM) or qualitative analysis (e.g., grounded theory, thematic analysis). Experience with grant writing or collaborative team science. Physical Requirements
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Network Analysis/ Structural Equation Modelling (SEM)/Multilevel Modelling (MLM) • Willingness to conduct fieldwork in rural or low-resource settings (required travel for up to 1 week 2-3 times a year
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fracture in HPDC aluminium alloys and to develop a virtual modelling framework capable of describing this behaviour. The research combines advanced microstructural characterization, including SEM and X-ray
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aluminium alloys and to develop a virtual modelling framework capable of describing this behaviour. The research combines advanced microstructural characterization, including SEM and X-ray-based computed
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coatings e.g. oxide and nitride. Drive the comprehensive characterization of thin films using advanced techniques (e.g., SEM, XRD, Raman, AFM, nanoindentation), enabling deep understanding of structure
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measurements at low temperatures Optical spectroscopic measurements Materials characterizations (AFM, SEM, TEM, Raman, etc.) Salary and Rank Special Instructions Applications received by March 1, 2026 will
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force microscopy (AFM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and secondary ion mass spectrometry (SIMS). Electrical properties will be evaluated using Hall effect
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and specimen preparation instruments (SEM, cryo-FIB-SEM, ultramicrotomy, etc). Monash researchers can also access a range of high-performance computing infrastructure. Applicants must hold a PhD (or