23 algorithm-development-"Multiple"-"Simons-Foundation"-"Prof"-"St" scholarships at University of Basel
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position (technician) will focus on performing Raman/FTIR on retrieved samples. The PhD position will focus on developing a deep-learning algorithm for analyzing the acquired experimental data.
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disease and to develop pioneering therapies benefiting the lives of patients in areas of unmet need. With more than 70 research groups and 800 employees, the Department of Biomedicine is the largest
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discovery and development through in vitro modelling of in-patient conditions in order to address antibiotic resistance, a problem of global importance. To reach this goal, AntiResist has assembled a panel of
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of adaptive radiation and associated key innovations in the evolution of freshwater diatoms. By integrating morphology, physiology, genomics, transcriptomics, and computational modeling, we aim to (i) determine
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probe microscopy. Our research focuses on using single electron spins in diamond as sensors to explore magnetic phenomena at the nanoscale. This doctoral project will center around the development and
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, networking, and career development are located in Basel. Basel provides a high standard of living and a rich and varied cultural atmosphere.
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basic and clinical scientists to advance our understanding of health and disease and to develop pioneering therapies benefiting the lives of patients in areas of unmet need. With more than 70 research
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well as to develop radically new therapies for eye diseases. These therapies are urgently needed, since the prevalence of visual diseases is rising globally, and effective therapies are lacking for most of them. As
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a Swiss-wide research consortium funded by the Swiss National Science Foundation (SNSF). AntiResist is transforming antibiotic discovery and development through in vitro modelling of in-patient
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poorly understood. This project seeks to address this question by examining the role of adaptive radiation and associated key innovations in the evolution of freshwater diatoms. By integrating morphology