Investigation of the oxygen, nitrogen and water vapour cross-sensitivity to NO sub(2) of tellurium-based thin films

Effect of O sub(2), N sub(2) and H sub(2)O to electrical behavior of tellurium- based films as well as cross-sensitivity to NO sub(2) gas has been studied at temperatures between 20 and 70 . The increase of oxygen partial pressure in N sub(2) + O sub(2) carrier gas results in a nearly linear decreas...

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Veröffentlicht in:	Sensors and actuators. B, Chemical Chemical, 2007-02, Vol.121 (2), p.406-413
Hauptverfasser:	Tsiulyanu, D, Stratan, I, Tsiulyanu, A, Liess, H-D, Eisele, I
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuators Chalcogenides Chemisorption Humidity Nitrogen dioxide Surface chemistry Thin films Vapour
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creator	Tsiulyanu, D Stratan, I Tsiulyanu, A Liess, H-D Eisele, I
description	Effect of O sub(2), N sub(2) and H sub(2)O to electrical behavior of tellurium- based films as well as cross-sensitivity to NO sub(2) gas has been studied at temperatures between 20 and 70 . The increase of oxygen partial pressure in N sub(2) + O sub(2) carrier gas results in a nearly linear decreasing of the film resistance. The complete impulsive substitution of nitrogen by oxygen decreases the resistance of the film with 6% in 1.5 h, which is far below the much faster response of 50% with 1.5 ppm NO sub(2). The effect of humidity is more perceptible. At room temperature the resistance of the films increases with 15% at 58% RH, but humidity has negligible effect at temperatures higher than 50 . At an appropriate temperature, humidity does not interfere with NO sub(2). Our results suggest that effect of water vapour is due to simple physical adsorption, whereas effect of oxygen and nitrogen is the consequence of "week" chemisorption of these molecules on the film surface. The NO sub(2) sensing mechanism involves "strong" chemisorption due to interaction between odd electrons of nitrogen dioxide molecules and lone-pair electrons of tellurium- based chalcogenides.
doi_str_mv	10.1016/j.snb.2006.04.068
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The increase of oxygen partial pressure in N sub(2) + O sub(2) carrier gas results in a nearly linear decreasing of the film resistance. The complete impulsive substitution of nitrogen by oxygen decreases the resistance of the film with 6% in 1.5 h, which is far below the much faster response of 50% with 1.5 ppm NO sub(2). The effect of humidity is more perceptible. At room temperature the resistance of the films increases with 15% at 58% RH, but humidity has negligible effect at temperatures higher than 50 . At an appropriate temperature, humidity does not interfere with NO sub(2). Our results suggest that effect of water vapour is due to simple physical adsorption, whereas effect of oxygen and nitrogen is the consequence of "week" chemisorption of these molecules on the film surface. 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The complete impulsive substitution of nitrogen by oxygen decreases the resistance of the film with 6% in 1.5 h, which is far below the much faster response of 50% with 1.5 ppm NO sub(2). The effect of humidity is more perceptible. At room temperature the resistance of the films increases with 15% at 58% RH, but humidity has negligible effect at temperatures higher than 50 . At an appropriate temperature, humidity does not interfere with NO sub(2). Our results suggest that effect of water vapour is due to simple physical adsorption, whereas effect of oxygen and nitrogen is the consequence of "week" chemisorption of these molecules on the film surface. The NO sub(2) sensing mechanism involves "strong" chemisorption due to interaction between odd electrons of nitrogen dioxide molecules and lone-pair electrons of tellurium- based chalcogenides.</abstract><doi>10.1016/j.snb.2006.04.068</doi><tpages>8</tpages></addata></record>
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subjects	Actuators Chalcogenides Chemisorption Humidity Nitrogen dioxide Surface chemistry Thin films Vapour
title	Investigation of the oxygen, nitrogen and water vapour cross-sensitivity to NO sub(2) of tellurium-based thin films
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