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ideal condition to support 3D cell growth via cell-microgel scaffold formation and additive manufacturing. This highly interdisciplinary position will cover material synthesis, microgel production via
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molecules using site-specific conjugation strategies. - Development of DNA origami scaffolds to spatially organize and orient proteins for structural studies by single-particle Cryo-Electron Microscopy
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George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș | Romania | 22 days ago
for biomaterials, implants and devices Advanced 3D printing and bioprinting of scaffolds and implants Intelligent (smart) implants and implantable sensors Translational, regulatory and ethical aspects in preclinical
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of osteoarthritis). This project aims the following main objectives: Define patient-specific key functional and mechanical requirements for large osteochondral scaffolds. Produce biocompatible porous 3D structures
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Postdoctoral Researcher in Synthetic Organic Chemistry and Photochemistry, IBMM, Montpellier, France
tissues. 3D printing technologies have boosted progress in the field by enabling the fabrication of complex engineered tissues. Nevertheless, printed scaffolds cannot faithfully recapitulate the spatial
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remain trapped within the liposome, limiting their bioavailability and therapeutic efficacy. This project will investigate coiled-coil peptides as a scaffold for assemblies that enable controlled membrane
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of osteoarthritis). This project aims the following main objectives: Define patient-specific key functional and mechanical requirements for large osteochondral scaffolds. Produce biocompatible porous 3D structures
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applying biochemical, microbiological, and analytical approaches to identify novel natural product scaffolds and elucidate their mechanisms. Key Responsibilities Design and execute microbiological
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make them excellent candidates for topical wound healing treatment, the potential application of foldamers as biomaterials has not yet been explored. Moreover, 3D scaffolds obtained from supramolecular
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functionalized scaffolds. However, there are still significant challenges, such as conducting long-term experiments to study the relatively slow process of osteogenesis over several weeks, optimizing perfusion in