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chemistry, materials science, energy materials, or a related field. Experience with 2D materials, MXene, and material characterization. Experience with electrochemical methods and material synthesis. Ability
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for planar scanning probe microscopy to conduct experiments on scanning nanogap cavities, notably scanning probe microscopy of defect centers in 2D materials • Continuous improvement of scanning probe
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insulators or 2D-materials and their heterostructures). • Quantum sensing, including low-temperature scanning NV magnetometry. • Strong correlation and many-body phenomena in 2D-quantum materials. • Advanced
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the remediation of contaminated materials. In the first year, you will receive 50% of the TVöD salary. Depending on your work performance, your remuneration may increase to 75% in the second year and 100% in
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institutions to digitally process and visualize information about their collections, and second, to collaborate with international partners to explore knowledge production about collection objects in
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as the second most abundant ingredient (Villarreal-Chiu et al., 2017). While these surfactants are considered inert in terms of their effect on glyphosate efficacy (Mesnage et al., 2019), a critical
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candidate will investigate ion transport through atomically thin membranes made of 2D polymers and graphene derivatives in close collaboration with experimental partner groups MPI Halle and Leiden University
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Materials for Efficient Energy Conversion”. The willingness to engage in interdisciplinary cooperation within the framework of other existing research programmes such as SFB 1242, SFB/TRR 247 and IRTG 2D
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, you will develop highly accurate computational tools for predicting satellite features in XPS spectra of 2D framework materials. Your work will be based on the GW approximation within Green’s function
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computational tools for predicting satellite features in XPS spectra of 2D framework materials. Your work will be based on the GW approximation within Green’s function theory. While the GW method reliably