Porphyrin-Based Hybrid Nanohelices: Cooperative Effect between Molecular and Supramolecular Chirality on Amplified Optical Activity

The development of chiral receptors for discriminating the configuration of the analyte of interest is increasingly urgent in view of monitoring pollution in water and waste liquids. Here, we investigate an easy protocol to immobilize the desired non-water-soluble receptors inside a water-dispersibl...

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Published in:The journal of physical chemistry. B 2024-02, Vol.128 (6), p.1550-1556
Main Authors: Anfar, Zakaria, Kuppan, Balamurugan, Scalabre, Antoine, Nag, Rahul, Pouget, Emilie, Nlate, Sylvain, Magna, Gabriele, Di Filippo, Ilaria, Monti, Donato, Naitana, Mario L., Stefanelli, Manuela, Nikonovich, Tatsiana, Borovkov, Victor, Aav, Riina, Paolesse, Roberto, Oda, Reiko
Format: Article
Language:English
Subjects:
B: Soft Matter, Fluid Interfaces, Colloids, Polymers, and Glassy Materials
Chemical Sciences
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Summary:The development of chiral receptors for discriminating the configuration of the analyte of interest is increasingly urgent in view of monitoring pollution in water and waste liquids. Here, we investigate an easy protocol to immobilize the desired non-water-soluble receptors inside a water-dispersible chiral nanoplatform made of silica. This approach induces chirality in the receptors and Here, we investigate an easy protocol to immobilize the desired non-water-soluble receptors inside a water-dispersible chiral nanoplatform made of silica. This approach induces chirality in the receptors and makes the dye@nanohelix system disperse in a suspension of water without aggregation. We noted strong induction and amplification of chiroptical activity in both achiral and chiral (proline-based or hemicucurbituril-based) porphyrin derivatives with and without zinc ions once confined and organized in nanometer silica helices. The results clearly demonstrated that the organization-induced chirality amplification of porphyrins dominates the molecular chirality, and the amplification is more efficient for more flexible porphyrins (especially free-base and achiral).
ISSN:1520-6106
1520-5207
DOI:10.1021/acs.jpcb.3c07153