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-lapse microscopy and automated image analysis to quantitatively track single-cell gene expression in controlled dynamic environments. A unique feature of our lab is the tight interaction between our lab's
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fundamental elements of scalable quantum computing with spins qubits in silicon and germanium. More details are available from https://nccr-spin.ch. Linked to NCCR SPIN, a tenure-track assistant professorship
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" supported by the Swiss National Science Foundation. The NCCR SPIN is developing fundamental elements of scalable quantum computing with spins qubits in silicon and germanium. More details are available from
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lab has developed cutting-edge methods that combine microfluidics with time-lapse microscopy and automated image analysis to quantitatively track single-cell gene expression in controlled dynamic
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exposure data representative for the population. Optional and depending on the interest of the candidate, the project may be adapted to include epidemiological analysis in HERMES (Health Effects Related