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at understanding the molecular mechanisms behind auxin transport at a molecular level. The selected candidate will investigate membrane proteins involved in auxin transport using a range of methods centered
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towards an understanding of the fundamental atmospheric processes: transport, chemical transformation, dispersion, and deposition of air pollutants. The group develops, tests, and applies global to local
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, electrochemical storage, micro and macro grid applications to the decarbonize the energy and transportation sectors. We design technologies that cover a wide range of applications, such as smart cities and
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of materials under operating conditions using the Aarhus Thermoelectric Operando Setup (ATOS). Furthermore, the candidate must have broad experience in materials synthesis and transport property characterization
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, electrochemical storage, micro and macro grid applications to the decarbonize the energy and transportation sectors. We design technologies that cover a wide range of applications, such as smart cities and