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A method to test the detectability of GC/PFPD for an extended concentration range with respect to reduced sulfur compounds
Author(s) -
Kim KiHyun
Publication year - 2008
Publication title -
journal of separation science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.72
H-Index - 102
eISSN - 1615-9314
pISSN - 1615-9306
DOI - 10.1002/jssc.200700682
Subject(s) - chemistry , calibration , analytical chemistry (journal) , reproducibility , sulfur , gas chromatography , range (aeronautics) , chromatography , chromatin structure remodeling (rsc) complex , mathematics , organic chemistry , materials science , statistics , biochemistry , nucleosome , composite material , gene , histone
Abstract In this study, a possible means to extensively expand the quantifiable range of reduced sulfur compounds (RSC) in air has been investigated by a combined application of GC with pulsed flame photometric detector (PFPD) and a multifunction thermal desorber (TD) system. To comply with the purpose of this study, gaseous RSC standards containing the equimolar concentrations of H 2 S, CH 3 SH, DMS, DMDS, and CS 2 were prepared at 11 concentration levels ( i. e ., 10 ppb–10 ppm (over 10 3 range)). These standards were then used to derive three‐point calibrations based on the modified injection through a TD (MITD). If the mean calibration slopes of each concentration level are normalized to that of CH 3 SH, the relative ordering is found as 0.65 (H 2 S): 1 (CH 3 SH): 1.34 (DMS): 2.24 (DMDS). The reproducibility of MITD method, when assessed in terms of relative standard error (RSE) for all calibration slopes, had the most stable pattern for DMDS (5.77%) and the least stable one for H 2 S (12.8%). The sensitivity of the MITD‐based calibration generally improved with an increase in concentration levels of standard gas. Based on our study, the MITD technique is useful to extend quantification of GC/PFPD by allowing RSC detection over a 10 3 range.

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