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Max Planck Institute for the Study of Crime, Security and Law, Freiburg | Freiburg im Breisgau, Baden W rttemberg | Germany | about 2 months ago
results in law, in related humanities, or in the social sciences. Your PhD dissertation in English or German will have been awarded ”summa cum laude” or the highest grade in another grading system
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passionate about applying cutting-edge information technology to solve the energy and climate crisis and would like to work in a vibrant and international research environment? Then let’s design the energy
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tissue samples, multi-parameter flow cytometry, molecular biology and fluorescence imaging will be preferred. We offer an interdisciplinary research environment that fosters innovation and collaboration
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? The doctoral degree should have been completed no longer than two years before the time of application. Doctoral students finishing their PhD studies by the beginning of the scholarship are also eligible
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, CSF) and/or advanced workflows such as spatial proteomics is highly desirable Strong collaborative spirit and working in interdisciplinary environments Excellent written and verbal communication skills
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to supervise PhD, Master and Dr. med (thesis as part of medical studies in Germany) students. The fellow will also have the opportunity to teach as part of the institute’s Masters and doctoral program but will
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dynamic, interdisciplinary and international environment on the Garching Campus of TUM, collaborating with several research groups working in related fields, particularly in algebraic geometry and
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consortium partners Your Profile: Excellent PhD in electrical engineering, computer science, or a related field Proven track record of high-level research, demonstrated through peer-reviewed publications and
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Max Planck Institute for Extraterrestrial Physics, Garching | Garching an der Alz, Bayern | Germany | about 1 month ago
) depending on experience. Our offer A versatile, challenging and autonomous job in a dynamic and culturally stimulating international research environment in the development of satellite instrumentation
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or harsh environments. To address this, our project explores Mg-based thermoelectric materials as a clean, maintenance-free alternative for energy harvesting. By converting ambient thermal gradients