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Field
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-electron Schrödinger equation for fermions and bosons with high accuracy and on the application of these methods to problems in the physics of oxides, semiconductors and their surfaces. Machine learning
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this role, you will study buried interfaces in monolithic 3D heterogeneous integration (M3D HI) systems, with a particular emphasis on vertically stacked 2D/3D semiconductor heterostructures. This position
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sources using tailored semiconductor nanoelectronic devices. Quantum light sources play a pivotal role in quantum information processing, quantum communication, and quantum sensing applications. By
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autonomy. The PRA will also be involved in research related to 2D semiconductors, polymers, and materials packaging in Human-Robot collaborative settings. This position provides an excellent training
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: To synthesize Pb-free halide perovskites. To synthesize, delaminate and functionalize MXenes To develop novel sustainable ink formulations based on Pb-free halide perovskites, semiconductor oxides and 2D
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perovskite thin films applications using slot-die coating and other large-area deposition methods. Analyze experimental data to optimize material and device performance, write scientific reports, and publish
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with other semiconductor materials. The studies will involve fabrication of heterojunction devices as well as detail characterization of the interface using various spectroscopy and microscopy techniques
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scientific aspects, from the fundamentals (the physics of devices and semiconductors) to materials (growth of graphene and MoS2 materials by CVD and MOCVD, surface functionalisation, advanced characterisation
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perovskite thin films applications using slot-die coating and other large-area deposition methods. Analyze experimental data to optimize material and device performance, write scientific reports, and publish
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electron, which would make this approach very promising for scaling up semiconductor spin qubit devices. This position focuses on experimentally demonstrating coherent spin shuttling, shuttling-compatible