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. Responsibilities and qualifications Your primary responsibilities and tasks include (but not limited to): Development of full- and reduced-order nonlinear finite element models of offshore structures with emphasis
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and photon indistinguishability towards unity. The primary responsibilities of the PhD students include: Employ numerical simulation techniques based on Fourier Modal Method and the Finite Element
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finite element models of offshore structures with emphasis on damage modelling Calculation of linear and nonlinear response of offshore structures exposed to various loading scenarios in-cluding
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cement based on literature, theory, and experiments. Optimization of composition with other waste materials. Thermodynamic modelling and experiments with advanced technologies are used. Development of a
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, finite element simulation tools, path planning and slicing tools, etc.). Deep enthusiasm for conducting original research in an interdisciplinary and international team and strive for scientific excellence
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together with calorimetry (ITC and DSC), chromatography (HPLC), and scattering (DLS, SAXS) instruments. For environmental science research is TOC, AAS FTIR, ICP MS, GC MS, HPLC, CHNS elemental analyzer, Ion
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two-dimensional (2D) materials such as graphene, α-RuCl3 , and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It
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two-dimensional (2D) materials such as graphene, α-RuCl3, and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It
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to be cost competitive with other technologies, long lifetime of >5 years operation under high current density is desired. Operation conditions such as temperature, gas composition, current density and
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two-dimensional (2D) materials such as graphene, a-RuCl3, and transition metal dichalcogenides (TMDs). This PhD project is highly focused on methodology, resolution enhancement, and reproducibility. It