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available doctoral positions in the Göstl group at the University of Wuppertal, you will design and synthesize force- and light-responsive molecular building blocks, and incorporate them into polymers
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To strengthen our team in the division "Technical Properties of Polymeric Materials" in Berlin‑Steglitz, starting 01.08.2024, we are looking for a Research assistant (m/f/d) in the field of polymer
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with the characterization of fibers and polymers for fiber-plastic composites (FRP) and recycled components, including biocomposites. The main characterization techniques used are thermal analysis
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, dynamically cultivated in vitro model of the endothelial glycocalyx is being developed, which enables the systematic investigation of electrostatic interactions with synthetic polymers and blood cells. Tasks
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technology o Application development o AM polymers Lasers and optical systems o Optical design and diode lasers o Solid-state lasers o Fiber lasers o EUV technology o Packing o Ultra-short pulse lasers o NLO
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cooperation with JCNS-1 "Neutron Scattering and Soft Matter" (located in Jülich) in the field of soft-matter and biological systems, functional polymers, biopolymers, lipid membranes, proteins and protein
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Berlin. Desirable: • Experience with MD simulations of liquids and polymers and the evaluation of simulation results • Experience with methods of static mechanics, stochastics and quantum chemistry • High
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relevant option for sustainable and efficient production of hydrogen. In addition to alkaline electrolysis, which has been commercially available for a long time, current research is focusing on PEM (polymer
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" (located in Jülich) in the field of soft-matter and biological systems, functional polymers, biopolymers, lipid membranes, proteins and protein complexes. Your duties and responsibilities within
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Postdoc – Synthesis and up-scaling of high-performance active materials for Na solid-state batteries
electrolytes (polymer, ceramic, hybrid) and their electrochemical characterization Optimization of the materials and cells to achieve the highest possible performance in the different cell designs and thus