-
optical spectroscopy techniques such as photoluminiscense, electroluminescence, cathodoluminescence-SEM and/or near field optical microscopies (SNOMs). 2D materials materials for microelectronics Preferred
-
. This project uses crystal growth and physical property measurements to develop, understand, and control new and emerging materials. This position resides in the Correlated Electron Materials Group in
-
electron microscopy or x-ray tomography Analyze experimental data to investigate mechanisms of irradiation- and mechanically- induced damage Present and report research results and publish scientific results
-
thermal analysis (DSC/TGA). Hands-on experience in materials characterization using tools such as particle size analysis, optical microscope, scanning electron microscopy, X-ray diffraction. Strong
-
probing the crystalline, electronic, and magnetic properties. Your emphasis will be on the development and characterization of new material platforms to understand and control emergent phenomena in
-
activities include performing microstructural characterization using electron microscopy, atom probe tomography and other advanced characterization techniques, and developing an understanding
-
. Lead XCT analysis of irradiated AGR particles by performing XCT imaging, identifying features of interest, and preparing polishing guides to support destructive microscopy analysis. Perform quantitative
-
and analytical techniques (e.g., mass spectrometry, electron microscopy) to study material interfaces and mass transfer of membranes An excellent record of productive and creative research as