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more efficient use of energy. Approximately 25 colleagues work at the division, including 15 PhD students. On the international level we collaborate with universities and institutes in Europe, Asia, and
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. Special focus will be put on the development of microfluidic systems based on acoustofluidic chromatography and enrichment (trapping) of submicron particles, especially biological nanoparticles such as
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, teachers, technical/administrative staff, and Ph.D. candidates. The department has a large PhD programme and co-ordinates three international Master programmes. The Department has a well-established
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Subject description The postdoctoral fellow will join a project focused on developing protein-based electronic components, with the ultimate goal of enabling in-cell production of semiconductor
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regulation, reproductive ethics, and ethical issues related to impaired decision-making capacity. Within our research group, we prioritize a good working environment based on mutual respect and care. We strive
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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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sugar consumption. The group is led by Associate Professor Emily Sonestedt and currently consists of three researchers and one PhD student. The research activities are based at the Clinical Research
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carried out in close collaboration with healthcare services, which includes handling patient samples. The research group consists of the principal investigator (Meliha Kapetanovic), two PhD students, three
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origins using AI-based tools Subject description Artificial intelligence (AI) is transforming forensics by enabling unprecedented precision in tracing the geographical origins and transmission routes