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for application in perovskite-perovskite tandem solar cells. The successful candidate will work in a collaborative environment with leading European academic and industrial partners, including the universities
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Post-doc Machine Learning and Modelling of Perovskite Solar Cells (V24.0287) « Back to the overview Job description The University of Groningen is a research university with a global outlook, deeply
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, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins that represent the majority of all current drug targets
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antibiotics and quorum sensing molecules, interfering with bacterial communication and very recently demonstrated the regulation of the circadian clock in human cells. The postdoc will be involved in both
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carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins
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Postdoctoral Researcher Computational Photopharmacology (1.0 FTE) (V24.0185) « Back to the overview Job description Without biological membranes, there would be no life as we know it. Transport
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Postdoctoral Researcher Photopharmacology (1.0 FTE) (V24.0110) « Back to the overview Job description “Photoresponsive molecules for biomedical applications” Photopharmacology is a rapidly emerging
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for application in perovskite-perovskite tandem solar cells. The successful candidate will work in a collaborative environment with leading European academic and industrial partners, including the universities
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Post-doc Machine Learning and Modelling of Perovskite Solar Cells (V23.0212) « Back to the overview Job description The University of Groningen is a research university with a global outlook, deeply