Novel template-assisted fabrication of porous gold nanowire arrays using a conductive-layer-free anodic alumina oxide membrane

A novel technique for the fabrication of nanoporous gold nanowire arrays (NPG-NWAs) was reported. A conductive-layer-free anodic alumina oxide (MO) membrane was used as a template for this fabrication. It was placed on a disposable gold electrode surface set in a custom-made batch cell and the NPG-NWAs were directly synthesized on the electrode surface through the pores of an AAO membrane. Parameters that affected the synthesis of this porous arrays electrode were optimized. Under optimum conditions, the NPG-NWAs provided a 5 and 167 times higher surface area than for gold nanowire arrays (GNWAs) and a disposable gold electrode respectively. The developed fabrication procedure provided a good electrodeto-electrode reproducibility (n = 5) with a relative standard deviation of 6.2%. The NPG-NWAs electrode was applied directly as a working electrode for the detection of glutathione within the same batch-cell. These NPG-NWAs provided two linear response ranges for glutathione: 1.0-10.0 nmoll(-1) with a sensitivity of 1.13 +/- 0.04 mu A(nmoll(-1))(-1) and 10.0-100.0 nmoll(-1) with a sensitivity of 0.16 +/- 0.01 mu A (nmoll(-1))(-1) and a detection limit of 0.88 +/- 0.08 nmoll(-1). A single NPG-NWAs electrode can be reused up to 60 times and this also reduced the analysis cost. When it was used to detect glutathione in real samples the obtained results provided good agreement with the labeled glutathione value at a 95% confidence level (P > 0.05) with good recoveries. In addition, the developed sensor will be applicable to other analytes that can reduce Cu2+ and it will be highly useful for quality control. This NPG-NWAs electrode could be applied to detect different analytes and this novel fabrication method could be applied for different nanomaterials. (C) 2013 Elsevier Ltd. All rights reserved.