Search for dissertations about: "thiol-ene coupling chemistry"
Showing result 1 - 5 of 9 swedish dissertations containing the words thiol-ene coupling chemistry.
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1. Thiol-Ene/Yne Adhesives for Tissue Fixation
Abstract : The utilization of adhesives in surgery has not reached its full potential and research in the field is encouraged by the surgeons’ desire for improved alternatives to today’s tissue fixation strategies. Here, adhesive resins based on thiol-ene coupling (TEC) chemistry or thiol-yne coupling (TYC) chemistry are exploited to develop tissue adhesives that cure fast and on-demand via photoinitiation. READ MORE
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2. Advanced polymeric scaffolds for functional materials in biomedical applications
Abstract : Advancements in the biomedical field are driven by the design of novel materials with controlled physical and bio-interactive properties. To develop such materials, researchers rely on the use of highly efficient reactions for the assembly of advanced polymeric scaffolds that meet the demands of a functional biomaterial. READ MORE
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3. Thiol−ene Coupling of Renewable Monomers : at the forefront of bio-based polymeric materials
Abstract : Plant derived oils bear intrinsic double-bond functionality that can be utilized directly for the thiol–ene reaction. Although terminal unsaturations are far more reactive than internal ones, studies on the reversible addition of thiyl radicals to 1,2-disubstituted alkenes show that this is an important reaction. READ MORE
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4. Multifunctional Dendritic Scaffolds: Synthesis, Characterization and Potential applications
Abstract : The development of materials for advanced applications requires innovative macromolecules with well-defined structures and the inherent ability to be tailored in a straightforward manner. Dendrimers, being a subgroup of the dendritic polymer family, possess properties which fulfill such demands. READ MORE
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5. Advanced Functional Thin Films and Networks towards Biological Applications
Abstract : Functional polymeric scaffolds have been employed in biological applications as several utilities, from nano-sized drug delivery systems to concrete implants. The progression in biological fields essentially relies on finding an appropriate material to fulfil the critical requirements for various types of applications with great potential for tuning functionality and mechanical properties. READ MORE