Title :
A High-Performance Three-Dimensional Microheater-Based Catalytic Gas Sensor
Author :
Xu, Lei ; Li, Tie ; Gao, Xiuli ; Wang, Yuelin
Abstract :
We report a high-performance catalytic gas sensor based on a 3-D microheater. Two catalytic gas sensors were fabricated by sol-gel process, respectively based on a 3-D microheater with a concave active membrane and a comparative 2-D microheater with a rectangular active membrane, introducing Pd-Pt as catalytic material. Test results of the sensor response to methane indicate that the output signal (ΔV), sensitivity, and signal-to-noise ratio of the 3-D microheater-based gas sensor were more than twice of those of the 2-D microheater-based gas sensor. Moreover, it had a higher output signal-to-power ratio (ΔV/P).
Keywords :
catalysis; gas sensors; microsensors; sol-gel processing; 2D microheater-based gas sensor; 3D microheater-based gas sensor; catalytic material; concave active membrane; high performance three dimensional microheater-based catalytic gas sensor; rectangular active membrane; signal-to-noise ratio; sol-gel process; Combustion; Gas detectors; Heating; Resistance; Sensitivity; Temperature measurement; Temperature sensors; 3-D microheater; Catalytic gas sensors; Pd–Pt; concave active membrane; methane; sol-gel;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2177805
