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Your Job: We are seeking a PhD candidate to join an ambitious European initiative aimed at revolutionizing the design and integration of energy materials for clean hydrogen energy technologies
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salary. Further information on doctoral degrees at Forschungszentrum Jülich (including its various branch offices) is available at https://www.fz-juelich.de/en/careers/phd We welcome applications from
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Your Job: In this position you are responsible for the identification, comprehensive characterization and development of advanced electrolyte components and resulting electrolyte formulations for sodium-based battery applications Your tasks in detail: You are involved in the identification and...
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Your Job: You will join the Simulation and Data Lab `AI and Machine Learning for Remote Sensing`, which aims to enhance visibility in interdisciplinary research between applications from remote sensing and large-scale AI with high-performance and innovative computing. You will conduct...
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Your Job: We offer a challenging and innovative PhD position within the international EU project LOCALISED. You will play a key role in the development of regionally adapted plans for the European
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Your Job: This work will be part of the DFG project “Texture Dependency of Arbuscular Mycorrhiza Induced Plant Drought Tolerance (TeAM-uP)” in collaboration with the Leibniz Institute of Vegetable and Ornamental Crops, the University of Bayreuth, the Technical University of Munich, and the Czech...
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presenting the results, while collaborating with other group members and collaborators You will obtain your PhD from Bonn University. Your Profile: Completed Master`s degree in physics (or related fields
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within the scientists at JSC, Bonn University, and within the CRC "NuMeriQS" You will obtain your PhD from Bonn University. Your Profile: Completed Master`s degree in physics (or related fields) Ideally
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is desirable: Electrochemistry, thin films, polymers, catalysis High motivation for pursuing a PhD within 3 years Ability to show initiative and work independently Excellent cooperation and
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between electrokinetic transport, surface charging, and interfacial reactivity under nanoconfinement is essential for the optimal design of next-generation ECL materials. As a PhD candidate at Theory and