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One‐Step Preparation of Biocompatible Gold Nanoplates with Controlled Thickness and Adjustable Optical Properties for Plasmon‐Based Applications

Sunjie Ye, Simon D. Connell, James R. McLaughlan, Lucien Roach, Zabeada Aslam, Navadecho Chankhunthod, Andy Brown, Rik Brydson, Richard J. Bushby, Kevin Critchley, P. Louise Coletta, Alexander F. Markham, Stephen D. Evans

2020Advanced Functional Materials30 citationsDOIOpen Access PDF

Abstract

Abstract The ability to synthesize plasmonic nanomaterials with well‐defined structures and tailorable size is crucial for exploring their potential applications. Gold nanoplates (AuNPLs) exhibit appealing structural and optical properties, yet their applications are limited by difficulties in thickness control. Other challenges include a narrow range of tunability in size and surface plasmon resonance, combined with a synthesis conventionally involving cytotoxic cetyltrimethylammonium (CTA) halide surfactant. Here, a one‐step, high‐yield synthesis of single‐crystalline AuNPLs is developed, based on the combined use of two structure‐directing agents, methyl orange and FeBr 3 , which undergo preferential adsorption onto different crystalline facets of gold. The obtained AuNPLs feature high shape homogeneity that enables mesoscopic self‐assembly, broad‐range tunability of dimensions (controlled thickness from ≈7 to ≈20 nm, accompanied by modulation of the edge length from ≈150 nm to ≈2 µm) and plasmonic properties. These merits, coupled with a preparation free of CTA‐halide surfactants, have facilitated the exploration of various uses, especially in bio‐related areas. For example, they are demonstrated as biocompatible photothermal agents for cell ablation in NIR I and NIR II windows. This work paves the way to the innovative fabrication of anisotropic plasmonic nanomaterials with desired attributes for wide‐ranging practical applications.

Topics & Concepts

Materials scienceNanomaterialsNanotechnologyPlasmonSurface plasmon resonanceBiocompatible materialPhotothermal therapyNanoparticleOptoelectronicsBiomedical engineeringMedicineGold and Silver Nanoparticles Synthesis and ApplicationsLaser-Ablation Synthesis of NanoparticlesNanocluster Synthesis and Applications
One‐Step Preparation of Biocompatible Gold Nanoplates with Controlled Thickness and Adjustable Optical Properties for Plasmon‐Based Applications | Litcius