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Full-Text Articles in Physical Sciences and Mathematics
Self-Assembly And Stimuli-Responsive Properties Of Amphiphilic Self-Immolative Block Co-Polymers, Thomas Mackenzie Gungor
Self-Assembly And Stimuli-Responsive Properties Of Amphiphilic Self-Immolative Block Co-Polymers, Thomas Mackenzie Gungor
Electronic Thesis and Dissertation Repository
In recent years, degradable polymers have become increasingly researched for their applications in drug delivery systems, adhesives, and tissue engineering. Self-immolative polymers (SIPs) are of particular utility due to predictable end-to-end backbone depolymerization after a stimuli-responsive end-cap cleavage. There are examples of incorporating a hydrophobic SIP into an amphiphilic block-copolymer, followed by self-assembly in aqueous media forming various nanoparticle morphologies. However, their self-assembly behaviour has not been described in detail, and there are no general synthetic methods that allow for their synthesis with good control over the relative hydrophilic block ratio, the major factor controlling their morphology. This thesis presents …
Polyglyoxylates: A New Class Of Triggerable Self-Immolative Polymers, Bo Fan
Polyglyoxylates: A New Class Of Triggerable Self-Immolative Polymers, Bo Fan
Electronic Thesis and Dissertation Repository
Self-immolative polymers, which degrade by an end-to-end depolymerization mechanism in response to the cleavage of a stabilizing end-cap from the polymer terminus, are of increasing interest for a wide variety of applications ranging from sensors to controlled release. However, the preparation of these materials often requires expensive, multi-step monomer syntheses and the degradation products such as quinone methides or phthalaldehydes are potentially toxic to humans and the environment. We demonstrate here that polyglyxoylates can serve as a new and versatile class of self-immolative polymers. Polymerization of the commercially available monomer ethyl glyoxylate, followed by end-capping with a 6-nitroveratryl carbonate provides …
Degradation Kinetics And Functional Design Of Linear Self-Immolative Polymers, Ryan A. Mcbride
Degradation Kinetics And Functional Design Of Linear Self-Immolative Polymers, Ryan A. Mcbride
Electronic Thesis and Dissertation Repository
Linear self-immolative polymers display a potential to address many of the limitations in the control over the degradation process in traditional biodegradable polymers. These materials are unique relative to most degradable polymers, in that they undergo end-to-end depolymerization in response to the cleavage of a stabilizing end-capping agent. Although one of their cited attributes is a dependence of their degradation time on chain length, no conclusive study has been conducted to demonstrate and study this effect. Using a previously reported linear self-immolative backbone derived from alternating 4-hydroxybenzyl alcohol and N,N’-dimethylethylenediamine spacers, this work offers the first conclusive study demonstrating …