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University of Jena - Cluster of Excellence "Balance of the Microverse" | Jena, Th ringen | Germany | 3 days ago
on April 1, 2026 or upon agreement. We offer a part-time position (65%, fixed-term position for 3.5 years) at the University of Jena. The project spans the areas of photocatalysis, organic synthesis and
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oxide and reduced graphene oxide, with properties very distinct from graphene and with possible applications in photocatalysis and batteries. However, determining their exact structure and structure
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photocathodes for long-term hydrogen production, thermoelectric modules for solar waste heat harvesting, or perovskite-silicon devices for light-driven chemical synthesis. For more details, please view https
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: technologist) to collaborate with the funded line of research “Synthesis of organic compounds through the use of photocatalysis and/or electrocatalysis”. Reference: I-PTGAI 04-26 Pursuant to the provisions
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and enhancing the performance of semiconductor nanomaterials across diverse applications in optoelectronics, spintronics, energy conversion, photocatalysis as well as biosensor technologies. Yet
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and plasmonic photocatalysis. 👉 Related publications: https://pubs.acs.org/doi/full/10.1021/acs.jpcc.4c02222 https://pubs.acs.org/doi/full/10.1021/acs.jpcc.4c04586 Please apply here: https
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ability to work under time pressure. Specific Requirements Proven experience in conducting research in the field of photocatalysis/ photoelectrocatalysis Proven experience in conducting research in
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of photocatalysis/ photoelectrocatalysis Proven experience in conducting research in nanomaterial synthesis, including solvothermal and wet-chemical methods, use of a Schlenk line system, and comprehensive material
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ability to work under time pressure. Specific Requirements Proven experience in conducting research in the field of photocatalysis/ photoelectrocatalysis Proven experience in conducting research in
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, environmental remediation, and photocatalysis. Project Description This project aims to design, synthesize, and mechanistically evaluate next-generation MOFs with tailored porosity, functionalized surfaces, and