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signatures of beneficial health effects and the mechanisms through which nutrients influence gene regulation. Ultimately, our ambition is to accelerate personalized nutrition strategies that contribute
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) to accelerate the characterization of degradation mechanisms in catalysts and electrochemical devices. This position resides in the Applied Microanalysis and Thermophysics (AMAT) Group in the Materials Analysis
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encompasses the application of machine learning tools to accelerate the optimization of polymer architectures and degradation behaviour. Salary, Level A - $91,381 - $121,838 per annum + 17% superannuation Full
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the thermal and electrical responses of cells and modules in real world conditions and under accelerated stress test scenarios. Utilising advanced experimental tools, this activity will link closely with
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crystalline materials is often responsible for improved materials performance, but it is commonly overlooked in computational materials design. In this project, we will focus on developing accelerated
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Helmholtz Zentrum München - Deutsches Forschungszentrum für Gesundheit und Umwelt | Stein bei N rnberg, Bayern | Germany | 23 days ago
world. We believe that diverse perspectives drive innovation. Through strong partnerships, we accelerate the transfer of new ideas from the lab to real-life applications, improving lives. The Institute
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. In this project, we aim to develop digital tools combining density functional theory (DFT) and machine learning (ML) to accelerate the in-silico design of solid catalysts for the DA process. - Perform
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Postdoctoral position (M/F) on impedance and dielectric study of solid/solid interfaces in batteries
remain a dominant technology for the foreseeable future, with an enormous increase in demand. In this context, there is a strong incentive for battery manufacturers to accelerate the design of LIBs with
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processes and particle acceleration in geospace. Research activities will integrate observational data analysis, theoretical modeling, and numerical simulations to advance our understanding of magnetospheric
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and analysis methods for realistic CO2 electrocatalysis, with a focus on parallel investigations and accelerated aging. Dissect degradation processes of CO2 electroreduction catalyst, electrodes, and