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. Empa is a research institution of the ETH Domain. Your tasks Your tasks will focus on the design and operation of experiments to investigate the failure mechanisms in wooden structures. This will require
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rheological, thermal, mechanical and fire performance analysis of these CANs. Molecular structural characterization of the CANs with Solid-State NMR, X-ray analytics, Raman, AFM, etc., and relating the features
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for integrated carbon capture and conversion technologies. Your tasks Synthesize and characterize materials for heterogeneous catalysis applications Develop synthesis-structure-properties relationships to optimize
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Microfluidic wet spinning of polymer fibers Characterization of polymer fibers: mechanical and structural properties Disseminating the research through scientific publications, conference posters and
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. Empa is a research institution of the ETH Domain. Our Centre for X-ray Analytics developsX-ray analytical and imaging methods for understanding materials structure in material, life- and medical sciences
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position in High-Entropy Oxides for Heterogeneous Catalysis Your tasks Synthesize and characterize materials for heterogeneous catalysis applications Develop synthesis-structure-properties relationships
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and inorganic powder-based materials for structural and functional applications. You will study and characterize the powder and formulation dependent granulation process to develop advanced ceramic
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plasmon resonance (LSPR) are strong photon-induced collective hot-electron coupling effects, which can create intense and sensitive electromagnetic near field. SPR and LSPR have found intriguing successes
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use low-temperature, high magnetic field scanning tunneling microscopy (STM) and tuning fork atomic force microscopy (QPlus AFM), combined with electron spin resonance techniques. Your profile Required