Sensors and Actuators B: Chemical
Jiaxi Hu;Lichun Zhang;Hongjie Song;Yingying Su;Yi Lv
The detection and discrimination of benzene, toluene, ethylbenzene and xylene (BTEX) are tricky and challenging issues no matter in environmental monitoring or process controlling in industrial fields. Herein, an ozone-inducted ratiometric cataluminescence strategy for fast quantifying and recognizing BTEX was developed. With ozone as oxidant and rare earth ions Eu,, Tb, co-doped MgO nanocatalyst as sensing material, BTEX were found to produce strong cataluminescence (CTL) emission. And each analyte has unique ratio of the intensities under the characterization wavelength of Eu, and Tb, in a wide range of concentrations, which can be assumed as the qualitative parameter for BTEX recognition. On that basis, BTEX were supposed to be identified successfully with discrepant ratios for I,/I, of 0.73?±?0.03, 1.34?±?0.03, 4.47?±?0.18, 2.39?±?0.11, and measured simultaneously with detection limit of 0.13, 0.21, 0.092, 0.053?μg?ml,, respectively. Besides, the prepared catalysts were characterized and the possible CTL sensing recognition mechanism for BTEX were discussed in detail. The proposed methodology provides a new insight for monitoring and identifying low active compounds.