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Field
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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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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
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and oxidation behaviour by XPS, UPS, MIES, TPD, and ISS Structural and elastic properties by (XRD, AFM, PFM, SEM) Data evaluation Support in teaching (Bachelor and Master thesis, lab courses, seminars
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chemical and physical analyses using XRD, XPS, SEM, TEM and Gas sorption analyses Electrode integration and processing studies: Incorporate catalysts into planar electrodes and investigate processing effects