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. Program Details The Max Planck Postdoc Program aims to attract the world's most talented postdocs to the Max Planck Society and to support them in their career development with specially designed career
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this project we are going to guide several schools in making the transition towards more customized education enabled by efficient and effective logistics processes. We will work with the schools in a design
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for CO2 emissions set forth, alternative, low-carbon emission approaches to existing manufacturing processes for base chemicals are required. This necessitates re-invention of processes that are in use
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join Technology, Innovation Society (TIS) group to develop new LCA and MFA based impact assessment method and support regional PV developers to make their products more circular and sustainable
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the north-south climate gradient in Europe, and link your findings of vegetation patterns to potential future shifts driven by climate change. You will design and implement field trials to assess the effects
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Correlated Electron systems group (ICE) focuses on materials and interfaces with unconventional electronic properties, especially related to interactions between the mobile charge carriers. The research is
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-molecule transport and measure the NPC nanoscale structure using TEM, AFM, FRET, DIB, MINFLUX, etc. We study purified yeast NPCs as well as design the amino-acid sequence of the IDPs and TRs de novo from
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-guided medical applications, with a focus on advanced robotics. You will work directly with clinical data to design robust, efficient deep learning algorithms that maximize the information extracted from
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of Management, Erasmus University and at Wageningen University & Research. There will be a substantial scope and a need for interaction among both the academic researchers involved as well as the partners from
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are required. This necessitates re-invention of processes that are in use since early days of the industrial revolution. Particularly novel separation methods for products from electrochemical synthesis