苏州科技学院学报:工程技术版
囌州科技學院學報:工程技術版
소주과기학원학보:공정기술판
Journal of University of Science and Technology of Suzhou:Engineering and Technology
2011年
4期
4-8,30
,共6页
分散液液微萃取%气相色谱-质谱%水样%菊酯类农药
分散液液微萃取%氣相色譜-質譜%水樣%菊酯類農藥
분산액액미췌취%기상색보-질보%수양%국지류농약
dispersive liquid-liquid microextraction%gas chromatography-mass spectrometry%water samples%pyrethroid pesticides
研究了用分散液液微萃取-气质联用法分析测定水样中的三种拟除虫菊酯类农药残留(联苯菊酯、氯氰菊酯和溴氰菊酯)的方法。通过实验确定了当样品体积为5 mL时的最佳萃取条件为:14μL氯苯作萃取剂,1.0 mL乙腈作分散剂,超声萃取1 min。在最佳实验条件下,该方法对水样中三种拟除虫菊酯类农药的富集倍数在318~363之间;线性范围分别在0.05~50μg/L和0.5~100μg/L之间;最低检出限在0.002~0.04μg/L之间;相对标准偏差RSD(n=6)在3.7%~11.2%之间;加标水样的回收率在86.0%~117.0%之间。
研究瞭用分散液液微萃取-氣質聯用法分析測定水樣中的三種擬除蟲菊酯類農藥殘留(聯苯菊酯、氯氰菊酯和溴氰菊酯)的方法。通過實驗確定瞭噹樣品體積為5 mL時的最佳萃取條件為:14μL氯苯作萃取劑,1.0 mL乙腈作分散劑,超聲萃取1 min。在最佳實驗條件下,該方法對水樣中三種擬除蟲菊酯類農藥的富集倍數在318~363之間;線性範圍分彆在0.05~50μg/L和0.5~100μg/L之間;最低檢齣限在0.002~0.04μg/L之間;相對標準偏差RSD(n=6)在3.7%~11.2%之間;加標水樣的迴收率在86.0%~117.0%之間。
연구료용분산액액미췌취-기질련용법분석측정수양중적삼충의제충국지류농약잔류(련분국지、록청국지화추청국지)적방법。통과실험학정료당양품체적위5 mL시적최가췌취조건위:14μL록분작췌취제,1.0 mL을정작분산제,초성췌취1 min。재최가실험조건하,해방법대수양중삼충의제충국지류농약적부집배수재318~363지간;선성범위분별재0.05~50μg/L화0.5~100μg/L지간;최저검출한재0.002~0.04μg/L지간;상대표준편차RSD(n=6)재3.7%~11.2%지간;가표수양적회수솔재86.0%~117.0%지간。
The application of the dispersive liquid-liquid microextraction combined with the gas chromatography-mass spectrometry on the determination of three pyrethroid pesticides(bifenthrin,cypermethrin and deltamethrin)in water samples was studied.Several parameters of the extraction procedure,such as the type of extraction and dispersive solvents and their volumes,ionic strength,extraction time,and shaking mode,were optimized by experiments.Under optimum conditions(14 μL chlorobenzene as the extraction solvent,1.0 mL acetonitrile as the dispersive solvent,sonication for 1 min),the enrichment factors of the three pesticides ranged from 318 to 363,and the linearity varied from 0.05~50 μg/L and 0.5~100 μg/L,respectively.The limits of detection(LODs),based on a signal-to-noise ratio(S/N)of 3,varied from 0.002 to 0.04 μg/L.The relative standard deviations(RSDs)ranged from 3.7% to 11.2%(n=6).The relative recovery(RR)in the river water and lake water were between 86.0%~117.0%.
