AI Article Synopsis
- Poly(phenylacetylene)s with anilide groups change color when they interact with oxidizing metal ions like Cu, Hg, Fe, Au, or Ce due to a redox reaction.
- Researchers studied six types of these polymers, each with different chiral pendant groups, showing that the anilide-PPAs are particularly sensitive to these metal ions.
- The reaction leads to the formation of a radical species that is spread along the polymer backbone, causing a noticeable color shift from yellow to blue, confirmed through various analytical techniques.
Article Abstract
Poly(phenylacetylene)s (PPAs) bearing -substituted anilide pendant groups are sensitive to the presence of oxidizing metal ions such as Cu, Hg, Fe, Au or Ce due to a redox reaction between the anilide-PPA and the metal ion. Using a library of six different PPAs containing diverse chiral pendant groups connected to the PPA backbone through the N (anilide) or C (benzamide) atoms of an amide group used as a linker, it was found that anilide-PPAs are sensitive to oxidizing metal ions. In these polymers, and through a redox reaction, a radical species is delocalized along the polyene backbone, resulting in a color change of the solution from yellow to blue. UV-Vis, ECD, IR, EPR, XPS and computational studies were carried out to demonstrate the electron transfer from PPA to the oxidizing metal once the metal coordinates with the anilide of the polymer.
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| http://dx.doi.org/10.1039/d4nr03662j | DOI Listing |
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