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: Experience with composite fabrication (VARTM, hand lay-up). (D) Experience with electromagnetic heating or nanomaterials. (D) Experience with materials characterisation (DSC, DMA, SEM). (D) Excellent written
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practical lab or workshop experience, especially if you’ve used tools like SEM, profilometers, or hardness testers to analyse materials. A knack for solving problems and thinking critically, with
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will utilise (where necessary), radioactive materials handling facilities, advanced materials characterisation techniques such as scanning electron microscopy (SEM), Transmission electron microscopy (TEM
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programme (Semester 1 / September start): via the Apply button above. Please be sure to quote the reference "SEMS-PHD-661" to associate your application with this studentship opportunity.
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, SEM/TEM, XPS, Raman amongst other techniques. The project will be jointly supervised by Dr Yagya Regmi and Prof Laurie King. This new project will be highly collaborative and interactive- you will have
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synthesis, materials characterisation and electrolyser tests. The materials characterisation will include XRD, SEM/TEM, XPS, Raman amongst other techniques. The modelling aspect will require adapting existing
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. We will explore both experimental techniques as well as computational models to provide feedback to design higher efficient devices. The materials characterisation will include XRD, SEM/TEM, XPS, and
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properties (electronic, optical, magnetic, catalytic etc.) Comprehensive analysis of thin film materials (via XRD, XPS, Raman spectroscopy, UV-Vis spectroscopy, SQUID, SEM, AFM, TEM etc.). Profile: We
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Powder Bed Fusion (LPBF) parameters. Perform detailed microstructural characterization of IN625 specimens using modern techniques (SEM, EBSD, TEM). Conduct mechanical tests under controlled hydrogen
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background in metallurgy, slip/twinning mechanisms, and mechanical behaviour of metallic materials is essential experience with Mg alloys, micro-compression and SEM-based techniques will be an asset excellent