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Ring-in-a-Triangle Nanoframes: Integrating with Intra- and Interhotspots for Highly Amplified Near-Field Focusing

Sungeun Go, Sungjae Yoo, Jiwoong Son, Soohyun Lee, Jaewon Lee, Sungwoo Lee, Jeongwon Kim, Minsun Park, Woocheol Park, Jae‐Myoung Kim, Jwa‐Min Nam, Sungho Park

2022Nano Letters32 citationsDOI

Abstract

The development of a stepwise synthetic strategy for Au ring-in-a-triangle nanoframes with a high degree of structural solidity is essential to the advancement of highly amplified near-field focusing. This strategy leads to the formation of an inscribed nanoring in a triangular metal frame with stability to withstand elevated temperatures and an oxidizing environment, which is critical for successful single-particle surface-enhanced Raman scattering (SERS). The existence of inscribed nanorings plays an important role in enhancing the so-called “lightning rod effect,” whereby the electromagnetic near-field enhancement occurs on the highly curved curvature of a metallic interface. We evaluated the corresponding single-particle SERS as a function of the thickness of the rims and then constructed two-dimensional (2D) bulk SERS substrates, wherein an ensemble of hotspots exists. The synergic contribution from both inter- and intrahotspots allowed the outstanding linearity of the calibration curve and the lowest limit of detection, ∼10–18 M for the analyte concentration.

Topics & Concepts

NanoringRaman scatteringCurvatureMaterials scienceNear and far fieldNanotechnologyField (mathematics)PlasmonParticle (ecology)Chemical physicsMolecular physicsOpticsChemistryRaman spectroscopyOptoelectronicsPhysicsGeometryPure mathematicsGeologyOceanographyMathematicsGold and Silver Nanoparticles Synthesis and ApplicationsNear-Field Optical MicroscopyPlasmonic and Surface Plasmon Research
Ring-in-a-Triangle Nanoframes: Integrating with Intra- and Interhotspots for Highly Amplified Near-Field Focusing | Litcius