[KSCI] Korea Science Citation Index Service

Comparison of isoButoxycarbonyl derivatives, tert.-butyldimethylsilyl derivatives, with US EPA Method in the sensitivity of Alkylphenols, Chlorophenols, and Bisphenol A Potential field-screening applications of GC/MS-SIM

Kim, Hyub (Technology Innovation Center, Sangju National University)
Hong, Jong-Ki (Hazardous Substance Research Team, Korea Basic Science Institute)
Kim, Yong-Hwa (Korea Research Institute of Chemical Technology)
Kim, Kyoung-Rae (Department of Pharmacy, Sungkyunkwan University)

Publication Information

Analytical Science and Technology / v.15, no.3, 2002 , pp. 196-213 More about this Journal

Abstract

The alkylphenols, chlorophenols and bisphenol A were determined by gas chromatography/mass spectrometry-selected ion monitoring mode followed by three work-up methods for comparison; EPA method, isoBOC derivatization method and TBDMS derivatization method. Eleven phenols in water samples were extracted with dichloromethane. Also, solid-phase extraction (SPE) with XAD-4 and subsequent conversion to isobutoxycarbonyl derivatives or tert.-butyldimethylsilyl derivatives for sensitive analysis with the selected ion-monitoring (SIM) mode. The recoveries were 85.1~109.9% (EPA method) and 90.3~126.6% (isoBOC derivatization and TBDMS derivatization), respectively. The method detection limit of bisphenol A for SIM were 0.732 ${\mu}g/{\ell}$ (EPA method), 0.002 ${\mu}g/{\ell}$ (isoBOC derivatization) and 0.021 ${\mu}g/{\ell}$ (TBDMS derivatization). The SIM responses were linear with the correlation coefficient varying 0.9755~0.9981 (isoBOC derivatization), and 0.9908~0.9996 (TBDMS derivatization). When these methods were applied to treated wastewater sample from a polyethylene plant, the concentrations of 11 phenols were below the method detection limit.

Keywords

method detection limit; EPA method; isoBOC derivatization; TBDMS derivatization;

Citations & Related Records

Reference

1	B. Pavlov, T. Terentyev, Organic Chemistry, Gordon and Breach Science Publishers, New York (1965).
2	G. A. Fox, A. P. Gilman, D. B. Peakall, F. W. Anderka, J. Wildl. Manage. 43 (3) (1978).
3	EPA method 3520C, Cotinuous liqud-liquid extraction'; http://www.epa.gov/epaoswer/hazwaste/test
4	T. Heberer and H. J. Stan, Analytica Chimica Acta, 341, 21-34 (1997).
5	S. M. Pendergrass, Am. Ind. Hyg. Assoc. J. 55, 1051-1054 (1994).
6	E. Pocurull, M. Calull, R. M. Marce, F. Borrull, J. Chromatogr. A 719, 105-112 (1996).
7	M. Moder, S. Schrader, U. Franck, and P. Popp, J. Anal Chem, 357, 326-332 (1997).
8	E. C. Huang, T. Wachs, J. J. Conboy, J. D. Henion, Anal. Chem., 62, 713A-725A (1990).
9	M. S. Leloux, E. G. DeJong, and R. A. A. Maes, J. Chromatogr., 488, 357-367 (1989).
10	P. A. Jones, Environment Canada Econ. Tech. Rev. Report EPS-3-EC-81-2, p. 434 (1981).
11	EPA method 3510C, Separatory funnel liquid-liquid extraction' ; http://www.epa.gov/epaoswer/hazwaste/test
12	Alkylphenol compound' ; http://website.lineone.net/-mwarharst/ape.html.
13	SPEED 98/JEA'; http://www.eic.or.jp/eanet/e/end/sp98.html.
14	Bisphenol A' ; www.foe.co.uk/
15	H. B. Lee, R. L. H. You, P. J. A. Fowlie, J. ASSOC. OFF. ANAL. CHEM. 72, NO. 6, 979-984 (1989).
16	K. R. Kim, H Kim, J. Chromatogr., 866, 87-96 (2000).
17	J. A. Dodge, Pure & Appl Chem., 70, 1725-1733 (1998).
18	U.S. Environmental Potection Agency, 1976, Water Quality criterior, U.S. EPA, Washington D.C. (1976)
19	EPA method 3546, Microwave Extraction' ; http://www.epa.gov/epaoswer/hazwaste/test
20	K. R. Kim, M. J. Paek, J. H. Kim, S. W. Dong and D. H. Chung, Pharm. Biom. Anal., 15, 1309-1318 (1997).
21	J. Ruana and I. Urbe, J. Chromatogr., 655, 217-226 (1993).
22	J. Mannheimer, National Environmental Protection Board, Sweden, Report SNV PM 3194 (1986).
23	J. F. Cooper, J. Tourte, and P. Gros, Chromatographia 38, 147-150 (1994).
24	Th. J. Boyd, J. Chromatogr. 662, 281-292 (1994).
25	E. J. Nanni, M. E. Lovette, R. D. Hicks, K.W. Fowler and M.F. Borgerding, J. Chromatogr., 505, 365-374 (1990).
26	E. ballesteros, M. gallego, and M. valcarcel, Anal. Chem. 65, 1773-1778 (1993).
27	A. L. Yergey, C. G. Edmonds, I. A. S. Lewis, and M. L. Vestal, Liquid Chromatography/Mass Spectrometry, Plenum Press, New York, 1990.
28	L. J. Guillette, T. S. Gross, G. R. Masson, J. M. Matter, H. F. Percival, and A. R. Woodward, Environ. Health persp., 102, 680-688 (1994).
29	U. S. International Trade Commission, Synthetic Organic Chemicals, U. S. Production & Sales 1988, USITIC, Publication No. 2219, Washington DC, Sept. 1989 (1989).
30	Validation Requirements' ; http://www.aoac.org
31	EPA method 3540, Soxhlet extraction'; http://www.epa.gov/epaoswer/hazwaste/test
32	C. A. staples, P. B. Dorn, G. M. Klecka, S. T. O'Block, L. Harris, Chemosphere, 36, 2149-2173 (1998).
33	김경례, 김정한, 박형국 : TBDMS 유도체로서 수용액시료중의 유기산 미량분석 연구, 대한화학회지, 34, 352-359 (1990).
34	EPA method 625, Base/neutrals and acids' ; http://www.epa.gov/epaoswer/hazwaste/test
35	C. S. Lu and S. D. Huang, J. Chromatogr. A. 696, 201-208 (1995).
36	N. Masque, E. Pocurull, R.M. Marce, and F. Borrull, Chromatographia, 47 176-182 (1998).
37	G. Achilli, G. P. Celrino, G. M. d'Eril, S. Bird, J. Chromatogr. A 697, 357-362 (1995) .