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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 1 day ago
for dialysis, including development, fabrication, and optimization of dialysis testing systems. The postdoctoral researcher will work under the guidance of Professors Theo Dingemans (polymer chemist, Applied
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Advanced Materials. The primary appointment can be in the Department of Chemical, Environmental and Materials Engineering, which houses ongoing work in material synthesis, catalysis and energy storage
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, Polymer Science, or related subject. Expert in the interfacial phenomena and encapsulation of materials in solid or liquid state. Expert in the materials (polymers and nanomaterials) synthesis and
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assembly of foldamers often lack the mechanical properties required for their optimal performance as biomedical devices. Polymers have recently emerged as a promising class of materials for biomedical
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of conventional surfactants, particularly regarding surface activity, stability and formulation efficiency. To address these challenges, the project focuses on developing novel synthesis strategies that enhance
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group (see: Nature, 2024, 629, 1069 — 1074, https://doi.org/10.1038/s41586-024-07399-9 ) to develop materials that retain the excellent recyclability of the printed polymers, but enables access to a wider
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nanomedicine alongside a collaborative, interdisciplinary group. You can get a sense of our work here: https://bhattacharya-lab.faculty.unlv.edu/publications/ Key Responsibilities • Design, synthesize, purify
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Degree or equivalent Skills/Qualifications Job description: Synthesis and characterization of nanofibrillated cellulose and nanocellulose hydrogels Specific Requirements Specific requirements
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macrolactams, retinoids and carotenoids. Synthesis of precursors for metal-organic frameworks (MOFs) and specific polymers for the selective capture of pollutants. Where to apply Website https://sede.uvigo.gal
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the Williams group centres around the utilisation of catalysis for the synthesis of sustainable materials from oxygenated polymers through controlled polymerisation processes. Our catalysis is versatile