-
[1] Handbook of Chemistry and Physics. CRC Press Inc. 60th Edition, United States Federal Register, Boca Raton, Florida, 1980 p. D-123.
-
[2] Bender F., Kim C., Mlsna T., Vetelino J. F.: Characterization of a WO3 thin film chlorine sensor. Sensors and Actuators B 77 (2001) 281-286.
-
[3] Miyata T., Minami, T.: Stability and sensing mechanism of high sensitivity chlorine gas sensors using transparent conducting oxide thin films. Thin Solid Films 355-356 (1999) 35-40.
-
[4] Patil D. R., Patil L. A.: Room temperature chlorine gas sensing using surface modified ZnO thick film resistors. Sensors and Actuators B 123 (2007) 546-553.
-
[5] Niu X., Weiping Du, Weimin Du: Preparation and gas sensing properties of ZnM2O4 (M = Fe, Co, Cr). Sensors and Actuators B 99 (2004) 405-409.
-
[6] Imanaka N., Okamoto K., Adachi G.: New chlorine gas sensor fabricated from chlorine anion- and scandium (III) cation-conducting solid electrolytes. Sensors and Actuators B 93 (2003) 3233-236.
-
[7] Pasierb P., Rekas M.: Solid state potentiometric gas sensors- current status and future trends. J.Solid State Electrochem. 13 (2009) 3-25.
-
[8] Yan Y., Miura N. and Yamazoe N.: Potentiometric sensor using stabilized zirconia for chlorine gas. Sensors and Actuators B 24-25 (1995) 287-290.
-
[9] Pelloux A., Gonrad C.: Solid state electrochemical sensor for chlorine and hydrogen chloride gas trace analysis. Sensors and Actuators B 59 (1999) 83-88.
-
[10] Weppner W.: Solid state electrochemical gas sensors, Proc. Int. Meet. Chemical Sensors, Bordeaux, France, July 7-10, 1986 pp. 59-68.