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Bottom-Up Synthesis of Helical Plasmonic Nanorods and Their Application in Generating Circularly Polarized Luminescence

Jiaqi Chen, Xinshuang Gao, Qiang Zheng, Jianbo Liu, Dejing Meng, Haiyun Li, Rui Cai, Huizhen Fan, Yinglu Ji, Xiaochun Wu

2021ACS Nano125 citationsDOI

Abstract

Chiral growth and chirality transfer associated with plasmonic nanostructures have rejuvenated the field of chirality. As the precise regioselective growth of inorganic crystals into chiral shapes at the nanoscale is extremely challenging, “bottom-up” synthesis of intrinsically chiral nanoparticles with structural stability is obviously attractive and important. With the thiolated bimolecular cosurfactants, we demonstrated a chemical strategy for the synthesis of intrinsically helical plasmonic nanorods (HPNRs) with strong and tailorable plasmonic circular dichroism (PCD) responses, deriving from the zwitterionic interactions between the −NH3+ and −COO– groups of the cysteine molecules (Cys). The influence of structural parameters of HPNRs on PCD responses was analyzed systematically by theoretical simulations. Among the different structural parameters, the pitch depth was found to have the greatest impact on the PCD signals, in agreement with the experimental results. Moreover, the obtained HPNRs with the strong, tunable, and stable chiroptical properties were found to be able to induce circularly polarized luminescence of achiral luminophores. Due to the generality of this effect, this chiral plasmonic nanostructure may have great potential for use in the fields of chiral sensors, chiral catalysis, and displays.

Topics & Concepts

Chirality (physics)PlasmonLuminescenceNanorodMaterials scienceCircular dichroismSupramolecular chiralityNanostructureNanotechnologyChemical physicsMoleculeOptoelectronicsCrystallographyChemistrySupramolecular chemistryPhysicsSymmetry breakingOrganic chemistryNambu–Jona-Lasinio modelQuantum mechanicsChiral symmetry breakingMetamaterials and Metasurfaces ApplicationsSynthesis and Properties of Aromatic CompoundsPlasmonic and Surface Plasmon Research