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Your Job: As a postdoc for the study of reaction processes on catalytically active surfaces, you will contribute to in-depth knowledge of the synthesis of sustainable fuels and chemicals based on mixtures of ethanol and methanol. Your tasks include: General literature research Familiarization...
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Your Job: Develop new acquisition schemes based on novel hardware to advance low-dose cryo-EM techniques, e.g., STEM acquisitions for cryo-EM Incorporate double Cs/Cc imaging correctors as well as Helium temperature sample for routine single-particle as well as tomography data...
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Your Job: In response to the urgent demands posed by climate change in an increasingly global economy and in addition to the goal of reducing dependence on imported energy sources and raw materials, the European energy system is considering a shift from an energy system based on fossil fuels...
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Your Job: You will be a member within the High Throughput Methods in Photovoltaics department, led by the ERC Grant winner Dr. Ian Marius Peters. Our overarching vision is to transition photovoltaic technology from the status of a renewable energy technology to true sustainability. Your role...
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Your Job: The electrocatalytic interface engineering department led by Prof. Dr.-Ing. Simon Thiele focuses on synthesis, manufacturing, analysis and simulation of functional materials to find an optimum structure on small scales from the micrometer to the nanometer scale. The investigated...
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Your Job: Your ideas and work support the department Electrocatalytic Interface Engineering, headed by Prof. Simon Thiele, in the team Composite Membrane Analysis and Design, headed by Dr. Thomas Böhm. The department focuses on the production, analysis and simulation of functionally optimal...
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Your Job: One way to combat climate change is climate engineering, which by either influencing solar radiation or removing carbon dioxide aims to cool the planet. Currently, climate engineering is still an emerging and controversial field, and the impact of several climate engineering...
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Your Job: Large energy system models optimize the size, allocation and operation of components based on simplified assumptions and finite time steps. Currently, their maximum size and level of detail is limited by the capabilities of commercial solvers such as Gurobi and the computational...
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Your Job: Quantum optimization (QO) is a promising, potentially disruptive technology for solving difficult optimization problems which is at the heart of energy system design and operation. While illustrative, energy-related examples (e.g., unit commitment) have been ported onto quantum...
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Your Job: You will be part of the Novel Catalyst Design department, headed by Prof. Dr. Marc Ledendecker. The department focuses on the fabrication of metal-based, inorganic catalysts for the global energy transition. We use many different nanoparticles to fabricate highly active supported...