Thickness controlled sol-gel silica films for plasmonic bio-sensing devices

FIGUS, CRISTIANA;QUOCHI, FRANCESCO;ARTIZZU, FLAVIA;SABA, MICHELE;Marongiu, D;Floris, F;Marabelli, F;Patrini, M;Fornasari, L;Pellacani, P;Valsesia, A;MURA, ANTONIO ANDREA;BONGIOVANNI, GIOVANNI LUIGI CARLO

2014-01-01

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Abstract

Plasmonics has recently received considerable interest due to its potentiality in many fields as well as in nanobio-technology applications. In this regard, various strategies are required for modifying the surfaces of plasmonic nanostructures and to control their optical properties in view of interesting application such as bio-sensing, We report a simple method for depositing silica layers of controlled thickness on planar plasmonic structures. Tetraethoxysilane (TEOS) was used as silica precursor. The control of the silica layer thickness was obtained by optimizing the sol-gel method and dip-coating technique, in particular by properly tuning different parameters such as pH, solvent concentration, and withdrawal speed. The resulting films were characterized via atomic force microscopy (AFM), Fourier-transform (FT) spectroscopy, and spectroscopic ellipsometry (SE). Furthermore, by performing the analysis of surface plasmon resonances before and after the coating of the nanostructures, it was observed that the position of the resonance structures could be properly shifted by finely controlling the silica layer thickness. The effect of silica coating was assessed also in view of sensing applications, due to important advantages, such as surface protection of the plasmonic structure.