AI Article Synopsis
- Thiolactone chemistry is highlighted as an effective method for modifying polymers post-synthesis, leading to multifunctional materials.
- The study focuses on creating ultrathin polymer surfaces by applying techniques like aminolysis and thiol-mediated modifications on thiolactone-based polymer brushes.
- It compares the effectiveness of sequential versus one-pot reaction methods, finding that while one-pot reactions provide better immobilization of functional groups, sequential methods allow for more complex designs like micropatterning using reactive microcontact printing.
Article Abstract
Thiolactone chemistry has garnered significant attention as a powerful post-polymerization modification (PPM) route to mutlifunctional polymeric materials. Here, we apply this versatile chemistry to the fabrication of ultrathin, multifunctional polymer surfaces via aminolysis and thiol-mediated double modifications of thiolactone-containing polymer brushes. Polymer brush surfaces were synthesized via microwave-assisted surface-initiated polymerization of DL-homocysteine thiolactone acrylamide. Aminolysis and thiol-Michael double modifications of the thiolactone-functional brush were explored using both sequential and one-pot reactions with bromobenzyl amine and 1,1-perfluoro--decyl acrylate. X-ray photoelectron spectroscopy and argon gas cluster ion sputter depth profiling enabled quantitative comparison of the sequential and one-pot PPM routes with regard to conversion and spatial distribution of functional groups immobilized throughout thickness of the brush. While one-pot conditions proved to be more effective in immobilizing the amine and acrylate within the brush, the sequenital reaction enabled the fabrication of multifunctional, micropattterned brush surfaces using reactive microcontact printing.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7047779 | PMC |
| http://dx.doi.org/10.1039/c9py01123d | DOI Listing |
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