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techniques, high-throughput screening and precise genome editing. Your job You will join the Vlaming lab , within the Genome Biology & Epigenetics division. The aim of your PhD project is to learn
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. The position is to be filled as soon as possible and initially limitedto 3 years with the potential for extension. The Milles lab (https://www.leibniz-fmp.de/milles ) uses and develops integrated single molecule
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HPC systems. IVRs either in package or on-chip, provide voltage regulation closer to the load, enabling miniaturization and modularity while reducing resistive losses due to shorter PDN interconnects
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and performance in HPC systems. IVRs either in package or on-chip, provide voltage regulation closer to the load, enabling miniaturization and modularity while reducing resistive losses due to shorter
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for building the next generation of semiconductor quantum chips! You will be part of the LIST Materials Research and Technology department, where you will carry out your work in the Quantum Materials
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) fabrication of the sensor chips in the MESA+ cleanroom and (4) evaluation of the resulting performance in flow and gas property sensing in our MEMS measurement lab. The project is part of the KIC FLOW
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(batteries, fuel cells, supercapacitors) o Microfluidic and lab-on-a-chip electrochemical platforms o Advanced electrode materials and surface modifications o In situ and operando electrochemical
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new nationwide AI system can be predicted using generated data sets of different sizes and measuring the environmental impact. This impact can be measured and calculated by our Software Energy Lab
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of precision medicine, ranging from targeted protection strategies to specific diagnostics and personalised therapy support. Projects with a holistic perspective go beyond the individual, focusing on public
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identifying and prioritising conservation action especially challenging. This project aims to develop a low-cost, field-based, portable and easy-to-use Lab-on-a-Chip device for environmental DNA monitoring