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such as the heart and nervous system, invariably with fatal consequences. The project will focus on probing the molecular factors underlying this instability (see for example https://www.nature.com/articles
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evaluation of algorithms for early drought stress detection by integrating interactive manipulation strategies with learning-based monitoring methods. This includes designing interaction primitives, processing
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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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an application is February 2, 2026. Project Description and Tasks In the project “All-Plant-Based Artificial Lighting Solution for Greenhouses”, we propose to design and synthesize sustainable, high- luminescent
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materials, formulating and optimizing electrolyte systems (including hybrid solvents, functional additives, and water-in-salt electrolytes), and investigating the electrochemical performances of designed
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, spectroscopy, and biomedical validation in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates
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work and a brief research plan aligned to Con-TEki. Where to apply Website https://umu.varbi.com/en/what:job/jobID:894765/type:job/where:39/apply:1 Requirements Research FieldBiological sciencesEducation
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risk factors. The main objective is to design and apply machine learning and deep learning methods to understand and investigate the functional behavior of gender-specific cancers. The work will include
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electromagnetic design and simulations Awareness of diversity and equal opportunity issues, with specific focus on gender equality Collaborative abilities Independence Great emphasis will be placed on personal
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semiconductors for electrochemical applications. We have strong expertise in the design and synthesis of tailor-made electrode materials, as well as expertise in electrode characterization for electrochemical