Title :
A Sensitive Benzene Gas Sensor Utilizing Thermal Desorption Coupled with Cataluminescence
Author :
Kaowen, Zhou ; Hongwei, Yang ; Peng, Zhang ; Wei, Chen
Author_Institution :
Biochem. Eng. Coll., Beijing Union Univ., Beijing, China
Abstract :
A new method based on cataluminescence (CTL) generated on the surface of nanosized Bi2O3 was proposed for direct determination of benzene in air. Trace benzene was firstly absorbed on active carbon at room temperature to concentrate, then desorbed at 130°C to inject. The method showed high selectivity to benzene at wavelength of 440 nm, satisfying activity at reaction temperature of 315°C and good stability at air carrier flow rate of 135 ml/min. The linear range of CTL intensity versus concentration of benzene was 0.3~75 mg/m3 (γ=0.9991), and the detection limit (3σ) was 0.1 mg/m3. The recovery of testing benzene in 5 artificial air samples by this method was 96.9%-105.0%. This method allowed rapid determination of benzene in air.
Keywords :
gas sensors; nanosensors; nanostructured materials; thermally stimulated desorption; CTL intensity; cataluminescence; nanosized material; sensitive benzene gas sensor; thermal desorption; trace benzene; Detectors; Luminescence; Materials; Oxidation; Spectroscopy; Temperature measurement; Benzene; Cataluminescence; Gas sensor; Nanosized material; Thermal desorption;
Conference_Titel :
Measuring Technology and Mechatronics Automation (ICMTMA), 2011 Third International Conference on
Conference_Location :
Shangshai
Print_ISBN :
978-1-4244-9010-3
DOI :
10.1109/ICMTMA.2011.69
