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information can be found via https://www.maastrichtuniversity.nl/research/institutes/amibm/research/ Research group Sustainable Polymer Synthesis Main research focus is on the design and synthesis
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roughness, AM roughness is characterized by randomness, porosity, and powder adhesion, producing flow behaviors that existing correlations and turbulence models fail to predict. Understanding and modeling
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, assessment of the synergistic effects of anticancer drugs on glioma cells cultured on elastic and viscoelastic 2D hydrogels, evaluation of the therapeutic efficacy of anticancer drugs using xenograft models
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electrochemically in Li-ion batteries. The complexing polymers will be regenerated for a new extraction cycle. This project contributes to the circular economy of critical metals. Where to apply Website https
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manufacturing technologies and eager to develop and build experimental setups and combine this with physics-based modelling? Join us as a PhD candidate and contribute to making volumetric 3D printing predictable
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(Ref. 2023.17653.ICDT) 3 – Financing source 100% state budget 4 – Scientific area Geosciences, Civil, Mechanical, Chemical, Physical, Materials, Polymers or Environmental Engineering 5 – Duration
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biophysics/chemistry/physics and related fields Experience with Molecular Dynamics using coarse grained or atomistic models Advantage is experience with simulations of disordered proteins/polymers and
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: 10.1038/s41467-023-39181-2 Research area: Computational biophysics, drug delivery, protein design Keywords:Computer simulations, coarse-grained model, molecular dynamics, membrane fusion, fusion protein
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, are needed. Specific expertise can focus on modelling of e.g., polymer, biomolecular systems, or colloidal systems. We work at both atomistic and coarse-grained modelling levels and appreciate multiscale
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exploit mathematical approaches, tools, and technologies at the interface with chemistry on one of the following themes: - modeling of quantum effects to gain a detailed understanding of chemical reactivity