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molecular structures capable of transferring electrons and interacting with light. Such assemblies also have applications in biomedicine. The primary objective is to develop computational methods, using deep
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, molecular genetic and cytogenetic techniques, and functional models of somatic genetic changes to understand how childhood leukemia arises and develops. Our long-term aims are to use our increased
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dynamics in Sweden, 1970-2020 (PI Maria Stanfors, funded by FORTE). The projects study demographic outcomes by socioeconomic status at the individual level from a life course and long-term perspective
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a dynamic research environment with international collaborations and have the opportunity to develop independent research skills while contributing to new knowledge in nutrition and public health. Our
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interdisciplinary project involving programming and modeling. In addition, the project includes collaborations with researchers in other disciplines, including biomathematics, biostatistics, and molecular biology
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the assessment criteria: A good ability to develop and conduct high quality research. Teaching skills. Other qualifications: Experience from computational fluid dynamics (CFD) modeling, preferable in openFOAM