Title :
Thin film anodized titania nanotubes-based oxygen sensor
Author :
Viegas, Alison E. ; Chatterjee, Debaditya ; Choudhury, Tanushree H. ; Raghavan, Srinivasan ; Bhat, Navakanta
Author_Institution :
Centre for Nano Sci. & Eng., Indian Inst. of Sci., Bangalore, India
Abstract :
Anodized titania, synthesized on oxidized silicon substrate, has been used as oxygen gas sensor. The as-anodized films resulted in a sensitivity of 5756% at 125°C, when exposed to 100% oxygen. The gas-sensing performance of anodized films has been evaluated with post-anodization treatment in de-ionized water and aqueous ammonia solution. The sensitivity increases to 8646% and 16599%, with post-treatment in aqueous ammonia solution and de-ionized water, respectively. This is attributed to increase surface area and activation during the post- anodization treatment. The repeatability of sensor performance has also been evaluated, and it is observed that the de-ionized water treated film is unstable for repeated sensing, possibly due to some structural modifications.
Keywords :
ammonia; anodisation; gas sensors; nanosensors; nanotubes; oxidation; oxygen; thin film sensors; titanium compounds; O2; TiO2; aqueous ammonia solution; deionized water; oxidization; post-anodization treatment; structural modification; temperature 125 degC; thin film anodized titania nanotube-based oxygen gas sensor; Chemicals; Films; Nanotubes; Sensitivity; Substrates; Temperature sensors; Anodization; Oxygen Sensor; Thin Film; Titania;
Conference_Titel :
Emerging Electronics (ICEE), 2014 IEEE 2nd International Conference on
Print_ISBN :
978-1-4673-6527-7
DOI :
10.1109/ICEmElec.2014.7151130
