It is worth to note that dielectric-capped isolated metal nanospheres have already demonstrated their effective applicability in photovoltaics [15] and SERS [16]. Here we present our studies on the influence of a high-index TiO2 ALD spacer on the SPR position and
SERS intensity in the case of silver island films grown on soda-lime glass substrates using our recently developed silver out-diffusion (SOD) technique [17]. It is important to note that MIFs are highly fragile and, therefore, they must be protected for any practical use. The use of conformally grown ALD films is ideal for protecting MIFs with a cover layer, since the layer thickness can be controlled at an atomic level and the initial surface relief structure can be maintained with thin cover layer thicknesses [18]. In the experiments, we varied the thickness of the ALD TiO2 spacer and Tanespimycin the MIF structure. The interest in TiO2 spacers is twofold: (1) the high catalytic abilities
of TiO2 [19–21] allowing the use of SERS with a titanium dioxide spacer in nanoscale organic and biochemistry studies and (2) the high refractive index of TiO2 providing stronger control of the ALD-coated MIF structure, which results in wider spectral tunability of the system. Methods MIF formation and characterization click here We fabricated silver nanoisland films using SOD from glass in the course of the ion-exchanged glass substrate annealing in a reducing hydrogen atmosphere. In the experiments, we used soda-lime glass microscope slides produced OSBPL9 by Menzel [22]. The Ro 61-8048 silver-sodium ion exchange was performed at 325°C in an ion-exchange bath containing 5 wt.% of silver nitrate and 95 wt.% of sodium nitrate as was reported elsewhere [23]. One-millimeter-thick slides
with a size of 20 × 30 mm2 were immersed in the melt for 20 min, which provided a few microns of silver penetration depth in the glass. Optical absorption spectroscopy of the ion-exchanged slides did not show any absorption peaks in the spectral range corresponding to the surface plasmon resonance, which indicated the absence of silver nanoparticles both in the bulk and on the surface of the slides. The ion-exchanged slides were annealed in hydrogen for 10 min to reduce silver ions to atoms and get a supersaturated solid solution of neutral silver in the glass matrix. According to the proposed mechanism [24], this results in the formation of both silver nanoparticles within the glass and a silver island film on the glass surface (MIF) due to the out-diffusion of silver atoms. After the MIF formation, we measured the optical absorption spectra of the samples using a Specord 50 spectrophotometer (Analytik Jena AG, Jena, Germany).