Title :
Room temperature ozone sensing with conductivity and work function sensors based on indium oxide
Author :
Doll, T. ; Fuchs, A. ; Eisele, I. ; Faglia, G. ; Groppelli, S. ; Sberveglieri, G.
Author_Institution :
Inst. fur Phys., Univ. der Bundeswehr Munchen, Neubiberg, Germany
Abstract :
Indium oxide thin films were deposited on silicon substrates for work function sensing as well as on alumina (Pt) conductivity sensors. The correlation of work function and conductivity measurements due to ozone in dry and humid air reveal that a chemisorption state dominates the sensor effects at temperatures below 200 °C. The influence of humidity is found to be comparatively small for these films. The work function method provides a sensitivity maximum at low concentrations of some ppb of ozone stable down to a substrate temperature of 40 °C. However, thermal desorption cycles will be necessary even for restricted use of such sensors. For HSGFET work function sensors with a In2 O3-Si3N4 system a response of 120 mV from 100 ppb of ozone in humid air is estimated for heaterless operation at room temperature
Keywords :
air pollution measurement; chemisorption; electrical conductivity; gas sensors; indium compounds; semiconductor materials; semiconductor thin films; work function; 120 mV; 25 to 200 C; Al2O3; Al2O3 substrate; HSGFET work function sensors; In2O3; In2O3 thin films; In2O3-Si3N4; In2O3-Si3N4 system; O3; Si; Si substrates; chemisorption state; conductivity measurements; conductivity sensors; dry air; heaterless operation; humid air; room temperature ozone sensing; sensitivity maximum; substrate temperature; thermal desorption cycles; work function sensors; Chemical sensors; Conductivity measurement; Humidity; Indium; Semiconductor thin films; Silicon; Sputtering; Temperature sensors; Thermal sensors; Thin film sensors;
Conference_Titel :
Solid State Sensors and Actuators, 1997. TRANSDUCERS '97 Chicago., 1997 International Conference on
Print_ISBN :
0-7803-3829-4
DOI :
10.1109/SENSOR.1997.613716
