AI Article Synopsis
- The study focuses on creating bimetallic hollow nanostar (HNS) nanoparticles made of gold (Au) and silver (Ag) by altering experimental conditions and using silver nanostars as templates for formation.
- The research aims to produce nanoparticles with improved properties such as broader plasmonic resonance, cleaner surfaces, and high concentrations of electromagnetic hot spots, which are beneficial for various applications.
- The study also examines the nanoparticles' optical properties through various microscopy techniques and investigates their surface-enhanced Raman scattering (SERS) activities using specific biomolecules that relate to Alzheimer's disease, establishing a link between the nanoparticle morphology and their functional capabilities.
Article Abstract
Bimetallic Au/Ag hollow nanostar (HNS) nanoparticles with different morphologies were prepared in this work. These nanoplatforms were obtained by changing the experimental conditions (concentration of silver and chemical reductors, hydroxylamine and citrate) and by using Ag nanostars as template nanoparticles (NPs) through galvanic replacement. The goal of this research was to create bimetallic Au/Ag star-shaped nanoparticles with advanced properties displaying a broader plasmonic resonance, a cleaner exposed surface, and a high concentration of electromagnetic hot spots on the surface provided by the special morphology of nanostars. The size, shape, and composition of Ag as well as their optical properties were studied by extinction spectroscopy, hyperspectral dark field microscopy, transmission and scanning electron microscopy (TEM and SEM), and energy dispersive X-ray spectroscopy (EDX). Finally, the surface-enhanced Raman scattering (SERS) activity of these HNS was investigated by using thioflavin T, a biomarker of the β-amyloid fibril formation, responsible for Alzheimer's disease. Lucigenin, a molecule displaying different SERS activities on Au and Ag, was also used to explore the presence of these metals on the NP surface. Thus, a relationship between the morphology, plasmon resonance and SERS activity of these new NPs was made.
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