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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
synthesis and characterization of structural biomaterials, peptide-polymer conjugates, and hydrogels – Experience with recombinant protein engineering, liquid- liquid phase separation and hyper-soluble
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(oxides and polymer–oxide hybrid) materials, suitable for printing techniques and compatible with low-temperature sintering (<300 °C). • Integrate the materials described above into thin-film transistors
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reducing or completely eliminating the use of polymer fractions. The obtained results will indicate milestones in the development of a new generation of high-performance solid electrolytes with minimized
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, particularly those working in: Bio-based materials and processes Polymers, textiles, and fibre innovation Circular economy and lifecycle assessment Novel materials from renewable, recycled, or waste resources
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Polymer Science position is available for FIELD to work in a project on the macromolecular synthesis and polymer properties led by Prof. Adam S. Veige and Prof. Austin M. Evans (https://veige.chem.ufl.edu
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thin films (e.g. polymer, small molecules, COFs) by solution-processing methods, and produce transistor device structures using such thin films characterize the resulting devices and potentially circuits
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is essential. Mechanical testing and polymer chemistry experience is desired. If you have not previously been educated in English, you will be required to provide evidence of your English language
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thin films (e.g. polymer, small molecules, COFs) by solution-processing methods, and produce transistor device structures using such thin films characterize the resulting devices and potentially circuits
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on the development of new characterization methods and on the manufacturing of complex textured surfaces through various processes (femtosecond laser, additive manufacturing, polymer replications, photolithography
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working both on the development of new characterization methods and on the manufacturing of complex textured surfaces through various processes (femtosecond laser, additive manufacturing, polymer