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) a novel dual scanning thermal and electron microscopy (SThM-SEM) instrument equipped with a cooling stage to bring the sample to a temperature varying from 100 K to 300 K and to use the new NbN SThM
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degree (300 ETCS in total). - Knowledge in nanomaterials and nanoscience. - Knowledge of experimental techniques (sputtering, XRD, TEM, SEM, magnetometry, etc.). - Outstanding CV and, more importantly, a
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-resolution SEM, TEM, EBSD, EDS, and XRD. This means you will not only master advanced electron microscopy but also gain the broader expertise to connect micro-scale insights with alloy design and real-world
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with profilometry and SEM), for a wider selection of materials than is currently possible. The multi-dimensional nature of the model likely necessitates a machine learning based approach, yet should be
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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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methods (XPS, UPS, AFM, SEM). Daily tasks: Growth by MBE of materials and structures from the III-N semiconductor group Characterization of grown materials and structures by surface methods (XPS, UPS, AFM
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, programming own software) Deposition of ScAlN thin films using magnetron sputtering Real-structure investigations (XRD, SEM, TEM, AFM, …) of these films Development of an electro-optical swich Support in
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, SEM) Data evaluation Support in teaching (Bachelor and Master thesis, lab courses, seminars) Documentation, publication, and presentation of results at national and international conferences and in peer
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Your Job: Catalyst synthesis and characterization: Prepare inorganic catalysts via wet-chemical methods and perform detailed chemical and physical analyses using XRD, XPS, SEM, TEM and Gas sorption
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microscopy, XRD, Raman spectroscopy, AFM, SEM/EDX, PL; UHV-based LEED and STM. The big part of the research program will be devoted to the studies of the electronic and magnetic properties of the MPX3-based