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related to materials science, thin film deposition, surface engineering, and characterization techniques. Supervision of master and PhD students, providing guidance on experimental techniques, data analysis
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), is seeking an outstanding, internationally recognized R4 Leading Researcher to assume a permanent ERA Chair position in advanced smart window materials, chromogenic thin films, and energy-efficient
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decoupling the key thermoelectric characteristics using a “nanoparticle-in-alloy” design strategy within an inorganic thin-film system. The core objective of the research is to tailor the interface structure
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perovskite-based solar cells through material synthesis, thin-film deposition, and large-scale processing. This position will focus on both laboratory-scale solar cells and the scalability of thin films using
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fluid dynamics with focus on pattern formations and their stabilities in thin-film type equations, which is financed by grands awarded from Crafoord foundation and the Royal Physiographic Society of Lund
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, developing, and bringing forward new sustainable solar energy conversion and storage technologies, in particular new thin film solar cells and modules. Working as a PhD fellow, you will focus on developing a
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hydrogen production. Research activities include thin-film deposition by magnetron sputtering, surface modification through doping and grain boundary engineering, materials characterization, and evaluation
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its employees in reconciling work and family life and regularly undergoes the audit berufundfamilie® . Further information at: http://www.ifw-dresden.de . The Nanostructured Thin Film Materials (NTFM
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of the method of ac-electrogravimetry with dissipation (ac-EQCM-D) at different harmonics. Task I: Development of model electroactive thin films with modulable mechanical properties (Prussian Blue analogues
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Max Planck Institute of Colloids and Interfaces | Potsdam, Brandenburg | Germany | about 1 month ago
semiconductor thin films for light-induced energy conversion. The project is embedded in the broader mission of our institute to develop advanced materials with semiconductor properties for light-induced