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Analyst

Title:		Selective detection of elemental mercury vapor using a surface acoustic wave (SAW) sensor
Author(s):		Kabir KM; Sabri YM; Matthews GI; Jones LA; Ippolito SJ; Bhargava SK;
Address:		"Mercury Management and Chemical Sensing Laboratory (MMCSL), Centre for Advanced Materials & Industrial Chemistry (CAMIC), School of Applied Sciences, RMIT University, Melbourne, VIC 3001, Australia"
Journal Title:		Analyst
Year:		2015
Volume:		140
Issue:		16
Page Number:		5508 - 5517
DOI:		10.1039/c5an00360a
ISSN/ISBN:		1364-5528 (Electronic) 0003-2654 (Linking)
Abstract:		"The detection of elemental mercury (Hg(0)) within industrial processes is extremely important as it is the first major step in ensuring the efficient operation of implemented mercury removal technologies. In this study, a 131 MHz surface acoustic wave (SAW) delay line sensor with gold electrodes was tested towards Hg(0) vapor (24 to 365 ppbv) with/without the presence of ammonia (NH3) and humidity (H2O), as well as volatile organic compounds (VOCs) such as acetaldehyde (MeCHO), ethylmercaptan (EM), dimethyl disulfide (DMDS) and methyl ethyl ketone (MEK), which are all common interfering gas species that co-exist in many industrial applications requiring mercury monitoring. The developed sensor exhibited a detection limit of 0.7 ppbv and 4.85 ppbv at 35 and 55 degrees C, respectively. Furthermore, a repeatability of 97% and selectivity of 92% in the presence of contaminant gases was exhibited by the sensor at the chosen operating temperature of 55 degrees C. The response magnitude of the developed SAW sensor towards different concentrations of Hg(0) vapor fitted well with the Langmuir extension isotherm (otherwise known as loading ratio correlation (LRC)) which is in agreement with our basic finite element method (FEM) work where an LRC isotherm was observed for a simplified model of the SAW sensor responding to different Hg contents deposited on the Au based electrodes. Overall, the results indicate that the developed SAW sensor can be a potential solution for online selective detection of low concentrations of Hg(0) vapor found in industrial stack effluents"
Keywords:		"*Electrodes Gases/*analysis Gold/*chemistry Mercury/*analysis *Models, Theoretical *Sound Volatile Organic Compounds/*chemistry;"
Notes:		"MedlineKabir, K M Mohibul Sabri, Ylias M Matthews, Glenn I Jones, Lathe A Ippolito, Samuel J Bhargava, Suresh K eng Research Support, Non-U.S. Gov't England 2015/06/13 Analyst. 2015 Aug 21; 140(16):5508-17. doi: 10.1039/c5an00360a"