Engineering chiral plasmonic nanostructures in solution remains a significant challenge for chiroptical applications. Here, we report a strategy to integrate self-assembled chiral polydiacetylene peptide (PDA) fibers with gold nanoparticles (AuNPs) to achieve tunable exciton–plasmon interactions and amplified chiroptical responses in aqueous milieu. The pH-responsive chiral diacetylenes (DAs) self-assemble into robust helical nanofibers that upon topochemical photopolymerization furnish PDA fibers with tunable chiral signatures. Achiral AuNPs in proximity to PDA fibers exhibit pH-dependent plasmonic chirality transfer with a maximal dissymmetry at neutral pH. A seed-mediated in-situ photoreduction of Au3+ on chiral PDA fibers generates anisotropic AuNPs to enhance plasmonic coupling. This selective templating induces hybrid plasmon modes, giving rise to a 4-fold enhancement in dissymmetry ratios to confirm enantiomeric growth of P- and M-helical PDA–Au hybrids. These findings establish an elegant design of stereoselective chiral plasmonic nanomaterials with potential applications in biosensing, biophotonics, and metamaterials.
Maulik et al. (Fri,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: