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surfaces. Deep eutectic solvents are typically biocompatible and biodegradable solvents formed by a hydrogen bond donor and a hydrogen bond acceptor. This characteristic confers them a highly tunable
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transition to less carbon-intensive and more sustainable energy systems. To compensate for their downtimes in energy production, the possibility to store energy in form of molecules such as hydrogen needs
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sustainable energy systems. To compensate for their downtimes in energy production, the possibility to store energy in form of molecules such as hydrogen needs to be developed. Electrocatalytic water splitting
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of electrodes and catalysts for low temperature fuel cells, electrochemical hydrogen generation, batteries, as well as heavy metal removal from aqueous solutions. By designing well controlled model systems in
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and surface reactions for environmental and sustainable energy applications. The activities include studies of electrodes and catalysts for low temperature fuel cells, electrochemical hydrogen
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hydrogen-enabled concepts. The ideal candidate is curious, collaborative, and driven by scientific quality, and enjoys working in a research environment that combines fundamental understanding with system
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every year. Unlike traditional pulping, which often breaks down or burns lignin as waste, RCF integrates solvolysis and catalytic hydrogenation to selectively extract lignin while preserving its natural