Precision Synthesis of Conjugated Polymer Films by Surface-Confined Stepwise Sonogashira Cross-Coupling

Precision Synthesis of Conjugated Polymer Films by Surface-Confined Stepwise Sonogashira Cross-Coupling

Thin films of poly(arylene ethynylene)-conjugated polymers, including low-energy-gap donor–acceptor polymers, can be prepared via stepwise polymerization utilizing surface-confined Sonogashira cross-coupling. This robust and efficient polymerization protocol yields conjugated polymers with a precise...

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Bibliographic Details
Main Authors: Sang Gil Youm, Mitchell T. Howell, Chien-Hung Chiang, Lu Lu, Neepa M. K. Kuruppu Arachchige, John F. Ankner, Joseph Strzalka, Yaroslav Losovyj, Jayne C. Garno, Evgueni E. Nesterov
Format: Article
Language:English
Published: MDPI AG 2024-11-01
Series:Molecules
Subjects:
Sonogashira cross-coupling
stepwise polymerization
polymer thin films
fluorescent sensor
excitation energy transfer
detection of nitroaromatic compounds
Online Access:https://www.mdpi.com/1420-3049/29/22/5466
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Summary:Thin films of poly(arylene ethynylene)-conjugated polymers, including low-energy-gap donor–acceptor polymers, can be prepared via stepwise polymerization utilizing surface-confined Sonogashira cross-coupling. This robust and efficient polymerization protocol yields conjugated polymers with a precise molecular structure and with nanometer-level control of the organization and the uniform alignment of the macromolecular chains in the densely packed film. In addition to high stability and predictable and well-defined molecular organization and morphology, the surface-confined conjugated polymer chains experience significant interchain electronic interactions, resulting in dominating intermolecular π-electron delocalization which is primarily responsible for the electronic and spectroscopic properties of polymer films. The fluorescent films demonstrate remarkable performance in chemosensing applications, showing a turn-off fluorescent response on the sub-ppt (part per trillion) level of nitroaromatic explosives in water. This unique sensitivity is likely related to the enhanced exciton mobility in the uniformly aligned and structurally monodisperse polymer films.
ISSN:1420-3049

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