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Enantioselective synthesis of chiroplasmonic helicoidal nanoparticles by nanoconfinement in chiral dielectric shells

Xiaoxi Luan, Yu Tian, Fengxia Wu, Lu Cheng, Minghua Tang, Xiali Lv, Haili Wei, Xiaodan Wang, Fenghua Li, Guobao Xu, Wenxin Niu

2025Nature Communications19 citationsDOIOpen Access PDF

Abstract

Helicoid metal nanoparticles with intrinsic chirality have unveiled tailorable properties and unlocked many chirality-related applications across various fields. Nevertheless, the existing strategies for enantioselective synthesis of helicoid metal nanoparticles have been predominantly limited to gold. Here, we demonstrate a robust and versatile strategy for the enantioselective synthesis of helicoid nanoparticles beyond gold, leveraging chiral nanoconfinement provided by chiral SiO2 or nanoshells. The chiral nanoconfinement strategy enables the decoupling of ligand-directed crystal growth from chiral induction, allowing for the independent tuning of these two critical aspects. As a result, this approach can not only facilitate the replication of chiral shapes from the chiral nanoshells but also allow the generation of alternative chiral shapes. By employing this approach, we demonstrate the enantioselective synthesis of helicoid Pt, Au@Pt, Au@Pd, Au@Ag, and Au@Cu nanoparticles. The chiroplasmonic properties of Pt- and Pd-based chiral nanoparticles have been discovered, and the inversion of chiroplasmonic properties of Ag-based chiral nanoparticles via facet control has been documented and theoretically explained. The chiral nanoconfinement strategy enriches the toolbox for creating chiral nanoparticles and supports their exploration in diverse applications. Strategies for the synthesis of chiral metal nanoparticles were mainly limited to gold. Here, the authors present the enantioselective synthesis of chiroplasmonic helicoidal nanoparticles beyond gold using chiral silica shells.

Topics & Concepts

Enantioselective synthesisNanoparticleMaterials scienceDielectricNanotechnologyCatalysisChemistryOptoelectronicsOrganic chemistryGold and Silver Nanoparticles Synthesis and ApplicationsMetamaterials and Metasurfaces ApplicationsLiquid Crystal Research Advancements
Enantioselective synthesis of chiroplasmonic helicoidal nanoparticles by nanoconfinement in chiral dielectric shells | Litcius