TY  - CONF
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84857073823&doi=10.1109%2fNatPC.2011.6136456&partnerID=40&md5=0c4ac00928c058621da74dd319b70504
A1  - Soriadi, N.
A1  - Mohamed, N.M.
A1  - Hussin, F.A.
SN  - 9781457718847
Y1  - 2011///
KW  - Anodization techniques; Anodization voltages; Fast response; Hydrogen detection; Hydrogen sensor; Hydrogen-sensing; Inner diameters; Medical diagnostics; Outer diameters; Sensing elements; Sensing property; sensitivity; Sensor configurations; TiO; Titania nanotubes
KW  -  Hydrogen; Pore size; Sensors; Sustainable development; Temperature; Titanium dioxide
KW  -  Nanotubes
TI  - Development of TiO 2 nanotubes for hydrogen sensing application
ID  - scholars1691
N1  - cited By 0; Conference of 3rd National Postgraduate Conference - Energy and Sustainability: Exploring the Innovative Minds, NPC 2011 ; Conference Date: 19 September 2011 Through 20 September 2011; Conference Code:88531
N2  - The demand for accurate, fast response hydrogen detection is critical in several industries especially in medical diagnostics. Titania nanotubes used as the sensing element, were fabricated by anodization technique followed by annealing at 500C. Nanotubes produced was found to have pore size ranging from 38 nm to 48 nm for inner diameter, 57 nm to 73 nm for outer diameter with applied anodization voltage of 10 V, 12 V and 15 V. Titania nanotubes film was then integrated into a sensor configuration and tested for its sensing properties. The sample of titania nanotubes with the smallest pore size was found to exhibit the highest sensitivity for detection of hydrogen with concentration as low as 10 ppm. The sensitivity of the hydrogen sensor was also found to be higher when the sensor is operated at temperature 300C. © 2011 IEEE.
AV  - none
CY  - Perak
ER  -