| Literature DB >> 26410272 |
Van Toan Nguyen1, Viet Chien Nguyen1, Van Duy Nguyen1, Si Hong Hoang2, Nguyen Hugo3, Duc Hoa Nguyen1, Van Hieu Nguyen4.
Abstract
Ultrasensitive and selective hydrogen gas sensor is vital component in safe use of hydrogen that requires a detection and alarm of leakage. Herein, we fabricated a H2 sensing devices by adopting a simple design of planar-type structure sensor in which the heater, electrode, and sensing layer were patterned on the front side of a silicon wafer. The SnO2 thin film-based sensors that were sensitized with microsized Pd islands were fabricated at a wafer-scale by using a sputtering system combined with micro-electronic techniques. The thicknesses of SnO2 thin film and microsized Pd islands were optimized to maximize the sensing performance of the devices. The optimized sensor could be used for monitoring hydrogen gas at low concentrations of 25-250 ppm, with a linear dependence to H2 concentration and a fast response and recovery time. The sensor also showed excellent selectivity for monitoring H2 among other gases, such as CO, NH3, and LPG, and satisfactory characteristics for ensuring safety in handling hydrogen. The hydrogen sensing characteristics of the sensors sensitized with Pt and Au islands were also studied to clarify the sensing mechanisms.Entities:
Keywords: H(2) gas sensor; Pd islands; SnO(2); Sputtering; Wafer-scale fabrication
Year: 2015 PMID: 26410272 DOI: 10.1016/j.jhazmat.2015.09.013
Source DB: PubMed Journal: J Hazard Mater ISSN: 0304-3894 Impact factor: 10.588