Abstract
This work aims to fabricate two types of plasmonic nanostructures by electrical exploding wire (EEW) technique and study the effects of the different morphologies of these nanostructures on the absorption spectra and Surface-Enhanced Raman Scattering (SERS) activities, using Rhodamine 6G as a probe molecule. The structural properties of these nanostructures were examined using X-Ray diffraction (XRD). The morphological properties were examined using field emission scanning electron microscopy (FESEM) and scanning transmission electron microscopy (STEM). The absorption spectra of the mixed R6G laser dye (concentration 1×10-6 M) with prepared nanostructures were examined by double beam UV-Vis Spectrophotometer. The Raman spectra of the R6G mixed with the prepared nanostructures were examined using a Horiba HR Evolution 800 Raman microscope system with an objective lens (50 ×). The FESEM and STEM images indicated that the Ag nanoparticles (AgNPs) with 35 nm average particle sizes were decorated on the surface of the AgNWs and the PDA layer by EEW technique, forming AgNW@AgNPs and AgNW@PDA@AgNPs nanostructures. The results indicated that the increased intensities of the absorption spectra peaks and the SERS arise from the hot spots and the roughness of the surface of nanostructures. The SERS enhancement factor of R6G (1×10-6 M) was reached at 2.3×107 and 2.5×107, at the wave number of 1650 cm-1, for the AgNW@AgNPs and AgNW@PDA@AgNPs nanostructures, respectively, after being excited by (λexc. = 532 nm) laser source. It can be concluded that the AgNW@AgNPs and AgNW@PDA@AgNPs nanostructures were fabricated with an easy and simple way without the need for additional chemical compounds. These nanostructures attained a reliable and sensitive detection and can be utilized in a variety of SERS applications, such as chemical and biological sensors.
Highlights
IntroductionFabrication of nanomaterials using physical techniques, especially those created using electro-exploding wire (EEW) technique has received remarkable consideration because of its high purity (no requirement for additives as those used in the chemical means) and fast preparation
Fabrication of nanomaterials using physical techniques, especially those created using electro-exploding wire (EEW) technique has received remarkable consideration because of its high purity and fast preparation
It can be concluded that EEW technique is a simple and efficient technique to fabricate nanostructures
Summary
Fabrication of nanomaterials using physical techniques, especially those created using electro-exploding wire (EEW) technique has received remarkable consideration because of its high purity (no requirement for additives as those used in the chemical means) and fast preparation. The enhancement of large electromagnetic fields occurs in active positions (hot spots) on the metal's surface at a nanometre gap between two nanoparticles, due to coupling the Localized Surface Plasmon Resonance (LSPR) between them [6]. It has been necessary to fabricate nanostructures, containing rough surface and having a large number of hot spots, which serve as effective substrates to enhance Raman spectrum. A high density of AgNPs on the surface of AgNWs and the AgNW@PDA which served as SERS hot spots was designed and fabricated for increasing SERS intensity and target molecule detection (R6G dye molecules). As it is well known, the influence of hot spots depends on the size and shape of the nanoparticles and the space between two neighboring nanoparticles. Development of reliable as well as lowcost and simple preparation techniques of the noble metal nanostructures, which contain rough surfaces and active hot spot, are our priorities in this research
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