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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
/fluorescent microscopy – Experience with synthesis and characterization of structural biomaterials, peptide-polymer conjugates, and hydrogels – Experience with recombinant protein engineering, liquid- liquid
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vesicles, cancer vaccines, brain cancer, motor neuron disease, protein corona, hydrogels, and gene therapy/editing. Hands-on experience in advanced cell culture techniques and in vivo models. Proficiency in
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. Building on recent innovations in 3D cryoprinting, where hydrogel-based materials are printed and spatially frozen to preserve their integrity and biological potential, this doctoral project aims to adopt
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, nanoparticle formulation, peptide therapeutics, T cells therapy, extracellular vesicles, cancer vaccines, brain cancer, motor neuron disease, protein corona, hydrogels, and gene therapy/editing. Hands
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and scale-up of nanomaterials and nanoformulations; Experience with biomaterials as synthesis precursors of nanomaterials; Experience in the synthesis and characterisation of hydrogels (natural and
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to the development of innovative formulations (e.g. emulsions, hydrogels, encapsulation systems) incorporating bioactive compounds derived from microalgae and cyanobacteria, with a view to sustainability and
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scientific field or MD Minimum experience: Cell culture experience and training in aseptic technique, polymer/hydrogel synthesis Preferred Qualifications Preferred education: PhD in Biomaterial engineering
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, of August 28th, as well as nos. 1 and 2 of article 6 of the Research Grant Regulations of the Foundation for Science and Technology. 6. Work plan: Development of polymeric biomaterials, namely hydrogels and
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-on experience with microbiological methods, material characterization, or polymer/ nanoparticle/ hydrogel synthesis. Strong analytical and problem-solving skills with high scientific curiosity. Ability to work
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of osteovascular effects of co-cultures with multicellular tissues in 2D and 3D culture (hydrogels, solid scaffolds) Analysis of the effects of different media compositions (osteogenic and angiogenic media) on cell