Litcius/Paper detail

Plasmon-Mediated Chiroptical Second Harmonic Generation from Seemingly Achiral Gold Nanorods

Zehua Li, Lei Kang, Robert W. Lord, Kyoungweon Park, Andrew Gillman, Richard A. Vaia, Raymond E. Schaak, Douglas H. Werner, Kenneth L. Knappenberger

2021ACS Nanoscience Au16 citationsDOIOpen Access PDF

Abstract

Throughout nature, simple rules explain complex phenomena, such as the selective interaction of chiral objects with circularly polarized light. Here, we demonstrate chiroptical signals from gold nanorods, which are seemingly achiral structures. Shape anisotropy due to atomic-level faceting and rounding at the tips of nanorods, which are free of chiral surface ligands, induces linear-to-circular polarization modulation during second harmonic generation. The intrinsic nanorod chiroptical response is increased by plasmon-resonant excitation, which preferentially amplifies circularly polarized harmonic signals. This structure-plasmon interplay is uniquely resolved by polarization-resolved second harmonic generation measurements. The material's second-order polarizability is the product of the structure-dependent lattice-normal susceptibility and local surface plasmon field vectors. Synthetically scalable plasmon-supporting nanorods that amplify small circular dichroism signals provide a simple, assembly-free platform for chiroptical transduction.

Topics & Concepts

NanorodPlasmonCircular dichroismSecond-harmonic generationSurface plasmonExcitationSurface plasmon resonanceCircular polarizationPolarization (electrochemistry)Materials scienceBirefringenceOpticsChemistryOptoelectronicsNanotechnologyPhysicsCrystallographyNanoparticlePhysical chemistryQuantum mechanicsLaserMicrostripMetamaterials and Metasurfaces ApplicationsGold and Silver Nanoparticles Synthesis and ApplicationsPlasmonic and Surface Plasmon Research