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古賀實 嶺南大學校 環境問題硏究所 1998 環境硏究 Vol.18 No.1
The authors have developed an analytical method for determining trace amounts of 266 kinds of chemicals, such as pesticides, in natural water samples by GC-ion trap MS. The advantage of the method is not only that one can perform simultaneous determinations of a large number of chemicals within a short time, but also that experiments can be performed with high precision and accuracy, because the method has some quality-control systems. One liter of water was extracted by dichloromethane; the extract was concentrated to 1 ml with a Kuderna-Danish concentrator. After adding internal standards, a qualitative add quantitative analysis by GC-ion trap MS was performed. The results concerning the overall recovery tests at 0.1 ㎍/l showed that the mean recovery was 92.1% and that the mean relative standard deviation war 10.8%. The mean detection limit of the method was 0.036 ㎍/l. To confirm the performance of the method, seawater and river water samples were analyzed. More than 100 chemicals were detected in water at below the 0.1 ㎍/l level. This method is useful for elucidating the concentration levels and the fate of chemicals in the aquatic environment.
Simultaneous Determination of 285 Chemicals in Water at ppt Levels by GC-Ion Trap Mass Spectrometry
Kadokami, Kiwao,Sato, Kenji,Koga, Minoru,Shinohara, Ryota 한국분석과학회 1995 분석과학 Vol.8 No.4
The authors have developed an analytical method for determining trace amounts of 285 kinds of chemicals in natural waters by GC-ion trap MS. The results of overall recovery tests at $0.1{\mu}g/l$ showed that the mean recovery was 92.1% and the mean relative standard deviation was 10.8%. The mean of the method detection limits was $0.036{\mu}g/l$. From the results of analysis of real samples, it was confirmed that this method is useful to elucidate the concentration levels and the fate of chemicals in the aquatic environment.