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of structure-performance relationships of different catalyst and membrane surfaces Development and validation of various test stand modifications Coordination with internal and external project partners from
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Your Job: Join the Safe.SIB research project to develop new battery cell chemistries or introduce new functionalities into an existing battery technology to achieve safe, ultra-high performant
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outstanding key performance indicators. Your tasks in detail: Contribute to develop an innovative process for the autothermal dehydrogenation of LOHC using fundamental knowledge of chemical engineering
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high-resolution electron microscopes. Perform and advance image analysis to determine high-resolution cryo-EM structures of ice-embedded test specimens and in situ cellular samples. Employ advanced
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infrastructure is needed? What is a cost-effective design for this infrastructure and what framework conditions need to be created? To answer these questions, you will perform the following tasks: Identifying
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Your Job: Random unitaries are a ubiquitous tool in quantum information and quantum computing, with applications in the characterization of quantum hardware, quantum algorithms, quantum cryptography
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laboratory with two millikelvin scanning probe microscopes in ultra-high vacuum with adiabatic demagnetization refrigeration (Rev. Sci. Instrum. 92, 063701, (2021)). The millikelvin systems reach temperatures
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simulation studies (LTspice and Cadence Spectre) perform algorithm-circuit co-design, quantifying performance and benchmarking with competing approaches support printed circuit board design and tape-out