Anodic titania nanotube arrays have been extensively explored for gas sensing applications due to their high chemical and thermal stability and robust synthesismethod. In this study, we explore the use of functionalized titania nanotube arrays for the electrochemical detection of gaseous volatile organic biomarkers associated with tuberculosis. The synthesis method developed allows for in situ functionalization of titania nanotubes with oxygen containing metal species (i.e., Co(OH)(2)) during anodization. Amperometric detection of volatile organic biomarkers with concentrations of 275 similar to 360 ppm using next generation titania nanotubes functionalized with Co(OH)(2) where compared with Co(OH)(2) functionalized titania nanotubes via a wet incipientmethod. Improved sensor response and sensitivity was observed with next generation titania nanotubes, which can be attributed to homogeneous distribution of reactive sites directly in contact with the parent titania. A mechanism for sensor response and in situ functionalization is presented.

• 出版日期2016