论文信息 - Highly sensitive and selective room temperature NH3 gas microsensor using an ionic conductor (CuBr) film

Highly sensitive and selective room temperature NH3 gas microsensor using an ionic conductor (CuBr) film

Abstract A new ammonia gas microsensor was developed, based on the large resistance change of an ionic conductor (CuBr) film when exposed to low NH3 concentrations. The detection is based on specific interactions between ammonia molecules contained in the gas atmosphere and mobile copper ions in the copper(I) bromide layer. The sensor is operating at ambient temperature and allows highly sensitive and specific ammonia detection. The sensor works at ammonia concentrations between 1 and 500 ppm. There are no significant cross-effects to acetylene and carbon monoxide and only a weak cross-sensitivity to hydrogen sulfide gas (200 ppm). The selectivity was experimentally compared with commercial tin dioxide sensors (TGS 826). The sensor fabrication is a simple process, allowing low cost device production.

[1] B. Strehlitz,et al. Sensor for amperometric determination of ammonia and ammonia-forming enzyme reactions , 2000 .

[2] J. Seguin,et al. Microstructure and ammonia gas sensitivity of sputtered films of the mixed ionic–electronic conductor CuBr , 2001 .

[3] C. Jacolin,et al. Morphology, Electrical Conductivity, and Reactivity of Mixed Conductor CuBr Films: Development of a New Ammonia Gas Detector , 2001 .

[4] W. Büchner. Industrial Inorganic Chemistry , 1989 .

[5] Prabir K. Dutta,et al. Detection of CO in a reducing, hydrous environment using CuBr as electrolyte , 2003 .

[6] C. Jacolin,et al. Impedance analysis of CuBr films for ammonia gas detection , 2002 .

[7] Eduard Llobet,et al. Fabrication of Highly Selective Tungsten Oxide Ammonia Sensors , 2000 .

[8] C. Lambert-Mauriat,et al. Sputtered thin films of CuBr for ammonia microsensors: morphology, composition and ageing , 2002 .

[9] D. B. Hibbert,et al. The kinetics and mechanism of the corrosion of copper in acidified copper (II) bromide solution , 1990 .

[10] Khalifa Aguir,et al. Development of an ammonia gas sensor , 2003 .

[11] Hubert B. Keller,et al. New applications of tin oxide gas sensors: II. Intelligent sensor system for reliable monitoring of ammonia leakages , 1999 .

[12] J. Maier,et al. Ionic Contact Equilibria in Solids—Implications for Batteries and Sensors , 1990 .