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1. "Scaling, rotation, and channeling behavior of helical and skyrmion spin textures in thin films of Te-doped Cu2OSeO3." Science advances 6.13 (2020): eaax2138.
2. "Superior polarization retention through engineered domain wall pinning." Nature communications 11.1 (2020): 1-8.
3. "A room-temperature ferroelectric semimetal." Science advances 5.7 (2019): eaax5080.
4. "Light-and bias-induced structural variations in metal halide perovskites." Nature communications 10.1 (2019): 1-9.
5. "Nonvolatile ferroelectric domain wall memory." Science advances 3.6 (2017): e1700512.
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PhD Student Positions in Advanced Scanning Probe Microscopy of Functional Materials in the group of Prof. Jan Seidel at UNSW Sydney
Our group currently has openings for PhD students. We employ a wide range of experimental techniques including advanced scanning probe microscopy (SPM) to study the properties of functional materials including ferroelectrics and multiferroics (BiFeO3, BaTiO3, PbTiO3, Pb(Zr,Ti)O3), ferromagnetic materials (Fe1−xCoxSi, Cu2OSeO3), transition metal dichalcogenide (WTe2), halide perovskites (MAPbX3), van der Waals materials (In2Se3) and other advanced materials. Current active research topics and more details can be found on our research group website: http://spm.materials.unsw.edu.au.
We are seeking highly motivated postgraduate students with research interest in synthesis and characterization of functional materials broadly. Students with degrees in materials science, physics, chemistry, mechanics, and engineering are encouraged to apply.
Please email Prof. Seidel with your CV to discuss in further detail about how to apply.
[ Last edited by ÄØà«ß½Óï on 2020-10-4 at 13:08 ] |