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such as SEM and TEM to characterize oxide particle size and distribution. Collaborate on research papers that are led by PhD GRA who is also working on project. Required Education: PhD in Welding
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stereolithographic 3D printing techniques and characterization of carbon materials, namely by thermogravimetry, SEM, TEM, Raman, elemental analysis, among other relevant techniques; 4) Possess experience in
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Ph.D. Position in Organic Chemistry, Polymer Chemistry, and/or Sol–Gel Chemistry & Materials Science
strong advantage Familiarity with porous materials characterization techniques is beneficial, but not required, e.g. nitrogen sorption (BET, BJH, NLDFT), SEM, TEM, TGA, FTIR, NMR, thermal conductivity
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characterization techniques (SEM/EDS, TEM, thermoelectric microprobe), confirmed participation in scientific conferences and symposia, organizational achievements, knowledge of English at the B2 level or higher
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, SEM/TEM, Raman, XRD, and TGA. For more information on School of Geography Earth and Environmental Sciences please visit our dedicated webpage at https://www.plymouth.ac.uk/schools Due to the nature
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electron microscopy (TEM); fixation, resin embedding, ultrathin sectioning, post staining, immunogold labeling and negative staining. Operation of the TEM. Preparation of solutions and chemicals. User
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(tooling and fixture). Experience in friction stir spot welding experiments (tooling and fixture) Experience in advanced characterization using techniques such as EBSD, XRD, TEM, etc. Experience in material
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https://www.science.org/content/article/metal-scaffolds-turn-bacteria-live-wires . [1] Postdoctoral fellow: high resolution microscopy and immunolabeling of conductive structures in multicellular cable
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epitaxy-pulsed laser deposition (MBE-PLD) technique. Careful study of the structure of this film by XRD, XPS, and TEM (collaboration with Prof. M Seibt / Dr. T. Meyer, University of Göttingen) and analysis
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(e.g., SDS-PAGE, CD, fluorescence, FTIR, calorimetry, light scattering, NMR, TEM, AFM, etc.). Experience with other approaches, such as bioinformatics and bioconjugate chemistry for labelling proteins