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on making new polymers . We synthesize macromolecules by new methods and try to control their nano-structures as well as to apply them to real-world applications. If you have strong organic chemistry
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the integration of passive and active supply concepts in the context of solar architecture and earth/wood construction. Project background This PhD position is part of the ThinkEarth project , a five-year
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National Science Foundation SNSF within the project "Beyond Replacement Construction: Implementing the Socio-Ecological Transformation of the Swiss Built Environment". In collaboration with the group
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: Process optimization and optimal path planning for polymer extrusion 3D printing. Hierarchical control structures for 3D printing processes studying process control and motion control problems. Integration
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dimensions offers unique opportunities to manufacture geometrically complex and bespoke building elements for sustainable construction. The project investigates the extrusion of hollow profiles (HC3DP
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various European universities, research centers, and companies. The successful candidate will develop novel 3D casting techniques for non-photocurable biodegradable polymers, integrate magnetic structures
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and geo-/biophysical parameter retrieval approaches relevant for future satellite SAR remote sensing concepts. Derived applications include, but are not limited to, 3-D vegetation structure/biomass
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Frameworks (MOFs) and Covalent Organic Frameworks (COFs) with magnetic structures for targeted drug delivery, ensure biodegradability and precise magnetic control, and perform comprehensive in vitro and ex
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metal complexes and functionalized carbon nanomaterials. Gain insight into the electronic structures, magnetic/thermochemical properties of newly synthesized materials using a suite of spectroscopic