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Field
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project The ERC project Far-infrared (FIR) semiconductor electronics aims to establish frontline semiconductor terahertz electronics for far-infrared space instruments. The goal is to achieve high receiver
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-infrared (FIR) semiconductor electronics aims to establish frontline semiconductor terahertz electronics for far-infrared space instruments. The goal is to achieve high receiver sensitivity and stability
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-conjugated organic semiconductors for high-performance organic photodetectors. The work integrates molecular and materials design with organic synthesis, purification, and thin-film characterization, in close
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engineering processing, material recycling, nuclear chemistry, theory and modelling. About the research project The project focuses on the development and synthesis of new π-conjugated organic semiconductors
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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
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accepting applications for a CEA permanent position for an outstanding early-career researcher in of ultra-wide-bandgap semiconductors, with a specific focus on nitride and oxide compounds. PHELIQS is a
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must be met no later than the time the employment decision is made. The applicant should have experience in the field of semiconductors, optics, photonics or related areas. Preferred qualifications A
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the Job related to staff position within a Research Infrastructure? No Offer Description Postdoc in Machine Learned Semiconductor Material Properties for Quantum Transport Simulations The simulation
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and enhancing the performance of semiconductor nanomaterials across diverse applications in optoelectronics, spintronics, energy conversion, photocatalysis as well as biosensor technologies. Yet
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electrical characterization of wide and ultra-wide bandgap semiconductor materials and devices, including GaN, Gallium Oxide, SiC and diamond (key enabling materials for power and RF electronics) and/or