Issue 2, 2024

Multicomponent chiral plasmonic hybrid nanomaterials: recent advances in synthesis and applications

Abstract

Chiral hybrid nanomaterials with multiple components provide a highly promising approach for the integration of desired chirality with other functionalities into one single nanoscale entity. However, precise control over multicomponent chiral plasmonic hybrid nanomaterials to enable their application in diverse and complex scenarios remains a significant challenge. In this review, our focus lies on the recent advances in the preparation and application of multicomponent chiral plasmonic hybrid nanomaterials, with an emphasis on synthetic strategies and emerging applications. We first systematically elucidate preparation methods for multicomponent chiral plasmonic hybrid nanomaterials encompassing the following approaches: physical deposition approach, galvanic replacement reaction, chiral molecule-mediated, chiral heterostructure, circularly polarized light-mediated, magnetically induced, and chiral assembly. Furthermore, we highlight emerging applications of multicomponent chiral plasmonic hybrid nanomaterials in chirality sensing, enantioselective catalysis, and biomedicine. Finally, we provide an outlook on the challenges and opportunities in the field of multicomponent chiral plasmonic hybrid nanomaterials. In-depth investigations of these multicomponent chiral hybrid nanomaterials will pave the way for the rational design of chiral hybrid nanostructures with desirable functionalities for emerging technological applications.

Graphical abstract: Multicomponent chiral plasmonic hybrid nanomaterials: recent advances in synthesis and applications

Article information

Article type
Review Article
Submitted
22 Sep 2023
Accepted
30 Nov 2023
First published
06 Dez 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2024,6, 318-336

Multicomponent chiral plasmonic hybrid nanomaterials: recent advances in synthesis and applications

G. Yang, L. Sun and Q. Zhang, Nanoscale Adv., 2024, 6, 318 DOI: 10.1039/D3NA00808H

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