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Field
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project will investigate the failure mechanisms of silicon-based anodes in solid-state batteries (SSBs), a promising next-generation energy storage technology. Silicon is an attractive negative electrode
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potato diseases, alter the plant microbiome and host biocontrol agents) and productivity (yield); understand the communication needs of potato farmers; and to co-create evidence-based communication
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: to establish an industry-led, mission-driven, collaborative research arena in Gothenburg, Sweden, where researchers from academia and engineers from industry can work side by side, in the same office, with a
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the criteria outlined below and provides an excellent training opportunity for a talented and ambitious scientist. The working ‘day to day’ language in the laboratory is English. Description of the project
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the communication needs of potato farmers; and to co-create evidence-based communication guidelines for the practical use of cover crops by farmers in Northern Europe. You will be part of a collegial
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, generation of attosecond pulses and applications of these to the study of ultrafast phenomena in various systems. We are looking for one to three postdocs to develop attosecond pulse sources and to study
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promising next-generation energy storage technology. Silicon is an attractive negative electrode material for SSBs due to its high specific capacity and potential to suppress lithium dendrite formation
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the team has a strong expertise in field robotics. Characteristic research topics for this Postdoctoral researcher position will focus on the following key areas, where a proof of previous work with
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and radiation generation in magnetic fusion, laser-produced and astrophysical plasmas. We are seeking a highly motivated individual to join the “Runaway electrons in fusion plasmas” project funded by
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researcher position will focus on the following key areas, where a proof of previous work with experimentally verified results is a necessary: - Autonomy with collaborative intelligence - Distributed task and