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Faculty of Engineering and Physical Sciences EPSRC Project Proposals 2025/26 (jobs.ac.uk) Project Link: Stress modulated antiferromagnetism in a BiFeO3-based thin film | Project Opportunities | PhD
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100%, Zurich, fixed-term The Nonlinear optics for Epitaxial growth of Advanced Thin films (NEAT) laboratory within the institute of Multifunctional Ferroic Materials in the Materials Department is
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NTNU 30th April 2025 Languages English English English We are looking for a PhD Candidate in Computational Modelling of Thin-Film Magnetic Materials Apply for this job See advertisement This is NTNU
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include: Fabrication and characterization of perovskite solar cells Deposition of ultra-thin films by means of Solution Atomic Layer Deposition (SALD) and their characterization Integration of photo
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the synthesis of powders and thin films with the aim to investigate their fundamental opto-electronic properties using state of the art instrumentation as well as fabricate functioning demonstrator devices
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Vacancies PHD POSITION ON MULTILAYER GROWTH OPTIMIZATION BY HYBRID X-RAY METROLOGY (MOXY Key takeaways Nanometer-thin films are enabling factors in many advanced technology fields such as
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The growing demand for high-performance, low-power large-area CMOS technologies has driven interest in a range of new materials, including silicon-based thin films, organic semiconductors, and metal
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investigate the synthesis of powders and thin films with the aim to investigate their fundamental opto-electronic properties using state of the art instrumentation as well as fabricate functioning demonstrator
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fabrication capabilities include; nanoscale 3D printing, thin-film deposition, plasma etching, photolithography, oxidation, and diffusion. Major characterization capabilities include; scanning electron
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(University of Auckland) ‘Ferroelectric and multiferroic nitride thin films for future computing’ with Dr Daniel Sando (University of Canterbury) ‘Spin-compensated Heusler alloy ferrimagnets’ with Dr Simon