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characterization using diffraction and microscopy techniques Use of advanced research infrastructure, including synchrotron and neutron facilities or high-magnetic field laboratories The PhD project includes
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harmful microorganisms. You will actively work with the characterization of various materials using environmental electron microscopy, X-ray diffraction, AFM, and various spectroscopic methods such as NMR
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to future nano-electronics and nano-spintronics applications, particularly, focus on topological materials, Dirac materials, 2D van der Waals materials, correlated systems, and high-Tc superconductors
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-ray diffraction Strong record of accomplishment in cultural heritage research Interest and ability to work in a collaborative, multidisciplinary research environment Ability to communicate effectively
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Laboratory (https://amcl.udel.edu/ ), a shared core facility equipped with a Thermo Fisher iCAP TQ ICP-MS with laser ablation and chromatography capabilities, and a suite of X-ray diffraction and fluorescence
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-ray fluorescence microscopy, x-ray absorption spectroscopy, and/or x-ray diffraction Strong record of accomplishment in cultural heritage research Interest and ability to work in a collaborative
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organic pollutants. This would require knowledge in the design and synthesis of porous frameworks, particularly in techniques such as Schlenk line, glove box, powder X-ray diffraction, electron diffraction
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. Preferred Qualifications Ph.D. preferred. Hands‐on experience with Scanning Electron Microscopy (SEM) preferred. Equipment Utilized Position regularly uses X-Ray Diffraction (XRD); Scanning Electron
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we actively work to ensure our community’s diversity and inclusiveness. This is why we warmly encourage qualified candidates from all backgrounds to join our community. Electronics Integration and
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surface-emitting lasers with MHCG subwavelength diffraction grating mirrors): • Optimization by means of computer simulations of MHCG mirrors, • Finding the best strategies for efficient heat flow in