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circuit current of thin film solar cells based on organic and/or perovskite materials. It is expected that the properties of the fabricated devices will be suitable for applications in transforming light to
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comprehensive characterization of novel material systems that harness spin, orbital, and magnon degrees of freedom. Research includes thin-film deposition, advanced materials characterization, and the development
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hexaferrites [4]. Consequently, all oxides can generate photo-induced spin currents. Research within this project focuses on the growth of orthoferrite thin films, on photoinduced ultrafast charge and spin
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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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. The successful candidate will be joining the Organic Nanostructured Photovoltaics group led by Prof. Dr. Jordi Martorell to undertake research in the characterization of thin film solar cells based on organic
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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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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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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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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