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of the PhD project is to investigate how biopolymers and biocolloids can be tuned into stimuli-responsive reactive and non-reactive inks for advanced assembly (3D printing) of bio-composites. We envision
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well as the disassembly or reassembly of the materials into new composite structures. We envision that the generated knowledge will advance the field of bio-based and sustainable material technologies and contribute to new
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-ceramic composites in close collaboration with a PhD student at the Biomaterials Engineering Group at ETHZ and the identification of process-structure-property relationships enabling the efficient design
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for biomedical applications. Your tasks Study the joint assembly of biopolymer in compartmentalized or bulk hydrogels. Characterize the resulting physical hydrogel properties as well as how these properties can be
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supported by Empa under the supervision of Prof. Thijs Defraeye (academic supervisor). It involves a joint affiliation with ETH Zürich (D-USYS). The candidate will perform the research at Empa in St. Gallen
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, thermal management issues, life-cycle considerations and sustainability,…), nano-micro-joining (NMJ) aims at utilising nanoscale, out-of-equilibrium effects for joining purposes, e.g. to achieve joints with