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Quantitative Approaches for the Determination of Volatile Organic Compounds (VOC) and Its Performance Assessment in Terms of Solvent Types and the Related Matrix Effects

Authors
Ullah, Md. AhsanKim, Ki-HyunSzulejko, Jan E.Choi, Dal Woong
Issue Date
Mar-2017
Publisher
한국대기환경학회
Keywords
Volatile organic compound (VOC); Solvent effect; Sandwich injection (SI) technique; Response factor; Effective carbon number (ECN)
Citation
Asian Journal of Atmospheric Environment, v.11, no.1, pp 1 - 14
Pages
14
Indexed
SCOPUS
KCI
Journal Title
Asian Journal of Atmospheric Environment
Volume
11
Number
1
Start Page
1
End Page
14
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/4282
DOI
10.5572/ajae.2017.11.1.001
ISSN
1976-6912
2287-1160
Abstract
For the quantitative analysis of volatile organic compounds (VOC), the use of a proper solvent is crucial to reduce the chance of biased results or effect of interference either in direct analysis by a gas chromatograph (GC) or with thermal desorption analysis due to matrix effects, e.g., the existence of a broad solvent peak tailing that overlaps early eluters. In this work, the relative performance of different solvents has been evaluated using standards containing 19 VOCs in three different solvents (methanol, pentane, and hexane). Comparison of the response factor of the detected VOCs confirms their means for methanol and hexane higher than that of pentane by 84% and 27%, respectively. In light of the solvent vapor pressure at the initial GC column temperature (35 degrees C), the enhanced sensitivity in methanol suggests the potential role of solvent vapor expansion in the hot injector (split ON) which leads to solvent trapping on the column. In contrast, if the recurrent relationships between homologues were evaluated using an effective carbon number (ECN) additivity approach, the comparability assessed in terms of percent difference improved on the order of methanol (26.5%), hexane (6.73%), and pentane (5.24%). As such, the relative performance of GC can be affected considerably in the direct injection-based analysis of VOC due to the selection of solvent.
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