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done for systems with a small number of atoms, far from those needed to address real devices. This project will address this issue, to develop theoretical and computational tools to bridge the atomistic
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. 4. Measurement of electrocaloric effects and pyroelectricity in ferro- and antiferroelectric oxide membranes. Requirements: · Education: Bachelor in Physics/Engineering. Master in Condensed Matter
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materials, with a current particular emphasis on graphene and other 2D materials (e.g. MoS2), and to develop the fabrication and processing technologies necessary to prepare advanced electronic devices and
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supramolecular and reticular chemistry and nanotechnology (nanochemistry), as well as in the use of a wide range of characterization techniques. The candidate will develop her/his thesis in excellent scientific
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also be participating in the common activities of both groups, such as group meetings or journal clubs. Education: Bachelor level background in physics, nanoscience, materials science or engineering
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Programme description: The ICN2 offers a competitive PhD Programme to talented students who wish to develop a research career at one of the top European institutions in the field of nanoscience and
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novel energy harvesting devices for the development of self-driven neural interfaces. Requirements: Education: Msc in Energy, Electrochemistry, Materials Science, Nanotechnology, or equivalent degrees
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multiple layer stacking). Education and experience: In order to succeed in this project, we are looking for a candidate with a high level of knowledge in physics, specifically in solid state physics, with
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Tasks and responsibilities: Perform DFT simulations on 2D materials such as transition metal dichalcogenides. Develop machine learning potentials and molecular dynamics simulations. Contribute