论文信息 - Catalytic combustion type hydrogen gas sensor using TiO2 and UV-LED

Catalytic combustion type hydrogen gas sensor using TiO2 and UV-LED

Abstract A thick film catalytic gas sensor operable at a temperature of 82 °C in the presence of UV-LED (ultra violet-light emitting diode) has been developed to measure hydrogen concentration in the range of 0.5–5%. The sensing material as a combustion catalyst consists of TiO2 (5 wt%) and Pd/Pt (20 wt%) supported on γ-Al2O3 powder. The reference material to compensate the heat capacity of it in a bridge circuit is γ-Al2O3 powder. A platinum heater and the sensor materials were formed on an alumina plate by a screen printing method, followed by heat treatment. The effect of UV irradiation in the presence of photocatalyst TiO2 on the sensor response, response and recovery time has been investigated. The reduction of operating temperature from 253 to 82 °C for hydrogen gas sensing in the presence of UV radiation is attributed to the enhanced activity of the chemisorbed oxygen ions which facilitate a higher rate of reaction between O2 and H2.

[1] Craig A. Grimes,et al. A room-temperature TiO2-nanotube hydrogen sensor able to self-clean photoactively from environmental contamination , 2004 .

[2] T. A. Jones,et al. The role of catalysis in solid-state gas sensors , 1986 .

[3] David C. Young,et al. Feasibility of renewable energy storage using hydrogen in remote communities in Bhutan , 2007 .

[4] G. Sberveglieri,et al. Photosensitivity activation of SnO2 thin film gas sensors at room temperature , 1996 .

[5] T. A. Jones,et al. The principles of the detection of flammable atmospheres by catalytic devices , 1973 .

[6] J. Saura,et al. Gas-sensing properties of SnO2 pyrolytic films subjected to ultrviolet radiation , 1994 .

[7] T. Nejat Veziroglu,et al. A step on the road to Hydrogen Civilization , 2002 .

[8] Giorgio Sberveglieri,et al. Light enhanced gas sensing properties of indium oxide and tin dioxide sensors , 2000 .

[9] M. G. Jones,et al. The detection of hydrogen using catalytic flammable gas sensors , 1989 .

[10] S. Seal,et al. Effect of ultraviolet radiation exposure on room-temperature hydrogen sensitivity of nanocrystalline doped tin oxide sensor incorporated into microelectromechanical systems device , 2005 .

[11] V. C. Sahni,et al. Passivated thick film catalytic type H2 sensor operating at low temperature , 2002 .

[12] M. Deluchi,et al. Hydrogen vehicles: an evaluation of fuel storage, performance, safety, environmental impacts, and cost , 1989 .