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of metamaterials, nanofabrication in a cleanroom environment, optical characterization, construction/modification of optical characterization tools, and test stations for fabricated devices. In
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project partners. Collect behavioural, welfare, microbiota, and production data in real farm environments. Work with economists and advisors to structure cost–benefit analyses of enrichment strategies
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structures and minimizing condensation. The process not only produces a lignin oil rich in aromatic monomers and oligomers, but also leaves behind a carbohydrate-rich pulp suitable for further conversion
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to enable collaborative work between the two strategic research areas eSSENCE and NanoLund (https://www.essenceofescience.se/ and https://www.nano.lu.se/ ), which means that the postdoc will benefit from
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-genome and population structure analyses, genome-wide association studies (GWAS), and the integration of transcriptomic and phenotypic data to identify candidate genes linked to biocontrol traits
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their structure and properties. Develop and optimize aqueous electrolyte systems, evaluating their electrochemical window, ionic transport properties, long-term stability, and interactions with electrode materials
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, quality of life, and costs. Specifically, you will work on structuring and implementing analyses using data from registry-based studies and cohort studies, as well as reporting the results, for example in
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(http://www.hogberglab.net/ ). You will contribute to the Dura-store project that is a part of the European Innovation Council’s Pathfinder Challenge for DNA-based digital data storage, aiming to use bio
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. Motivating examples include the spatio-temporal dynamics of sweat droplets, interacting cellular or tissue shapes, and geometric structures arising in vegetation such as tree canopies. The work combines
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and across species. - Implementing ATAC‑STARR‑seq to validate enhancer activity; mapping enhancer–promoter links via loop/TAD structures. - Perform comparative analyses versus Populus tremula; apply