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disorders) with the aim to clinically validate the methods and promote their translation to healthcare. The positions are funded from Research Council of Finland project 'VR2Real: Precision diagnostics
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master's and bachelor's students. The project offers the opportunity to work with novel methods in aquatic ecology with internationally renowned researchers and collaborators. The duties, qualification
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computational models (e.g., Convection-Diffusion Equations, Finite Element Methods, Computational Fluid Dynamics) to investigate cerebral blood flow (CBF), neurovascular coupling (NVC), and neurovascular system
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Chemie International Edition 2016, 55, 669 (DOI: 10.1002/anie.201509302). The research integrates electrochemistry, molecular design, and development of novel synthetic methods. The job requires
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microscopy, diffraction, and other complementary methods; (c) Developing and applying analytical techniques, such as liquid chromatography, to identify and quantify reaction products. You will also have
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, with flexibility to choose their approach and methods within the project’s overarching aims. They will prepare scientific publications and engage actively in collaboration within the project’s
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is recommended. Experience in molecular nanotopology, foldamer chemistry, or oligophenylene synthesis is particularly relevant. Prerequisites for the positions include thorough working methods, team
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well as to prepare new devices and methods of quantum information processing. Our goal is to achieve JoFETs by utilizing hybrid devices based on silicon and high-quality superconducting silicides. Remarkably
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computing in large-scale omics data analysis. Your work will focus on method development and their application to biomedical research questions. Key responsibilities include: analyzing and modeling large
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functional properties of protein-based materials. In this position, you will develop methods for the recombinant production of post-translationally modified structural proteins, investigate their effects