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. Empa is a research institution of the ETH Domain. In the Urban Energy Systems Laboratory we develop methods and tools to model, design, control and assess energy systems at various scales with a focus on
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membranes. The project aims to develop an efficient anion exchange polymer membrane with high chemical and thermal stability. Your responsibilities to design, synthesize, and characterize anion conductive
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and mass-producible contactor materials. The position is within the project ESCoDAC - Efficient Structured Contactors for Direct Air Capture. ESCoDAC intends to develop concepts for a novel mass
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computational and experimental facilities, and the opportunity to work in a multidisciplinary environment where communication and interaction to create synergies and develop novel ideas are highly valued
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cutting-edge research on anion conductive polymer membranes. The project aims to develop an efficient anion exchange polymer membrane with high chemical and thermal stability. PostDoc in the synthesis
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the project ESCoDAC - Efficient Structured Contactors for Direct Air Capture. ESCoDAC intends to develop concepts for a novel mass-producible structured sorption contactor for Direct Air Capture (DAC) with
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where communication and interaction to create synergies and develop novel ideas are highly valued. The position is available for two years from August 2024, or at a slightly later date upon mutual
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electrodes, electrochemical flow cell design, and characterization. The project target is to develop an efficient electrochemical cell to adsorb CO2 of different concentrations upon reduction and to release
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methodology, complemented by microscopy and dynamic light scattering, among other methods. The aim is to develop a fundamental understanding of the leading interactions between nanoparticles and biology