The improvement of SiO2 nanotubes electrochemical behavior by hydrogen atmosphere thermal treatment

2018 
Abstract Highly defected SiO 2 nanotubes (SiO 2 -NT) were obtained by a simple sol-gel procedure followed by calcination. Boron-doped diamond (BDD) polycrystalline films coated with SiO 2 -NT were used as working electrodes and, unexpectedly, cyclic voltammetric experiments have shown that the concentration of both positive and negative defects at the surface is high enough to enable redox processes involving positively charged Ru(bpy) 3 2+/3+ to occur. Conversely, no electrochemical activity was put into evidence for Fe(CN) 6 3−/4− species, most likely as a result of the strong electrostatic repulsion exerted by the negatively charged SiO 2 surface. The concentration of surface defects was further increased by a subsequent thermal treatment in a hydrogen atmosphere which, as EIS measurements have shown, significantly promotes Ru(bpy) 3 2+ anodic oxidation. Digital simulation of the voltammetric responses demonstrated that this treatment does not lead to a similar increase of the number of electron-donor sites. It was also found that methanol anodic oxidation at hydrogenated SiO 2 -NT-supported platinum results in Tafel slopes of 116–220 mV decade −1 , comparable to those reported for both conventional PtRu and Pt-oxide catalysts.
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