Journal
MATERIALS RESEARCH EXPRESS
Volume 6, Issue 10, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2053-1591/ab361b
Keywords
hydroxyapatite film; ammonia gas sensor; three-dimensional network structure; sensing mechanisms
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Funding
- national long-term project of 'Thousand Talents Plan of Foreign Experts Affairs' of People Republic of China [WQ20142200205]
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A room-temperature high-performance ammonia (NH3) gas sensor based on hydroxyapatite (HAp) film with three-dimensional network structure was reported in this paper. The gas sensor was fabricated on the indium tin oxide glass (ITO) interdigital electrode via simple electrochemical deposition technique. The HAp film gas sensor shows good sensitivity, high reproducibility and excellent selectivity to NH3 gas under dry and relative humidity (RH) conditions at room temperature. The response and recovery time of the HAp film gas sensor to 1000 ppm NH3 gas are 23 s and 14 s under N-2(dry) condition, and are 4 s and 11 s under air (RH approximate to 30) condition, respectively. The HAp film gas sensor has no considerable deviation in the 1000 ppm NH3 gas for 3 cycles under N-2(dry), and so is air (RH approximate to 30) conditions. The HAp film gas sensor shows excellent selectivity to methanol, acetone and ethanol under N-2(dry) and air (RH approximate to 30) conditions. Above all, two sensing mechanisms of the HAp film gas sensor to NH3 gas have been also researched in this work.
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