分散液液微萃取-气相色谱-质谱法测定水中环氧七氯

向已加入100mg氯化钠的5.0mL水样中加入由20.0μL四氯乙烯、1.0mL丙酮混合而成的分散微萃取溶液,采用气相色谱-质谱法测定萃取相中环氧七氯的含量。在气相色谱分离中采用DB-5ms石英毛细管色谱柱,在质谱分析中采用选择离子监测模式。环氧七氯的质量浓度在0.5～200μg·L~(-1)内与其对应的峰面积呈线性关系,检出限(3S/N)为0.1μg·L~(-1)。以空白样品为基体进行加标回收试验,所得回收率为81.6%～97.4%,测定值的相对标准偏差(n=5)为4.6%～7.2%。     

分散液液微萃取/气相色谱-质谱法测定水中多氯联苯

为了快速准确的测定水中多种多氯联苯(Polychlorinated Biphenyls, PCBs),建立了分散液液微萃取(Dispersive Liquid-Liquid Microextraction, DLLME)与气相色谱-质谱联用,快速测定水中20种PCBs的新方法。方法以二氯甲烷(20μL)为萃取剂,丙酮(1.0 mL)为分散剂,混匀后注入10.0 mL水样中,以4℃、8 000 r/min离心10 min,吸取下层有机相10μL,加入0.2μL内标后进样分析。结果表明,在最佳条件下,20种PCBs能够被充分提取和良好分离。在10.0～500μg/L浓度范围内呈现良好的线性关系,线性相关系数为0.999,检出限为0.7～1.8μg/L。对水样进行20、100、450μg/L的加标实验,相对标准偏差与回收率分别在1.6%～9.7%与72.0%～115%之间,能够满足环境水样中PCBs的测定要求。     

分散液液微萃取-气相色谱-质谱法测定水样中4种环境激素

以四氯乙烯作萃取剂,以四氢呋喃为分散剂对水样中4种环境激素甲草胺、乙草胺、三唑酮和三唑醇进行分散液液微萃取。提取液用气相色谱-质谱法测定。4种环境激素的质量浓度与其相应峰面积均在0.05～100μg.L-1范围内呈线性关系。甲草胺、乙草胺、三唑酮和三唑醇的检出限(3S/N)分别为0.016,0.015,0.023,0.032μg.L-1。在0.2,2.0mg.kg-1两个添加水平下进行回收试验,4种环境激素的回收率在86.8%～118%之间,测定值的相对标准偏差(n=6)在2.1%～6.2%之间。     

分散液液微萃取-气相色谱/质谱法测定水中多环芳烃

用分散液液微萃取-气相色谱/质谱法测定水样中的16种多环芳烃(PAHs)。通过实验确定最佳萃取条件为:20μL四氯化碳作萃取剂,1.0 mL乙腈作分散剂,超声萃取1 min。在优化条件下,多环芳烃的富集倍数达到216～511,方法在0.05～50μg/L范围内呈良好的线性关系,相关系数(R2)在0.9873～0.9983之间,检出限为0.0020～0.14μg/L。相对标准偏差(RSD)在3.82%～12.45%(n=6)之间。该方法成功用于实际水样中痕量多环芳烃的测定。     

分散液液微萃取-气相色谱-质谱法测定长江水体中18种苯系物

取经滤膜过滤的长江水样8.00mL,加入含四氯乙烯10μL的丙酮0.50mL,样品中的苯系物在几秒钟内即被萃取至四氯乙烯微小液滴中。经高速离心,萃取相沉积在离心管底部,移取萃取相8μL置于进样瓶中供气相色谱-质谱分析。在气相色谱分离中用HP-INNOWAX毛细管柱为固定相,在质谱分析中采用全扫描和选择离子检测模式。18种苯系物的质量浓度在1 000μg·L-1以内与其峰面积呈线性关系,方法的检出限(3S/N)在0.055~0.156μg·L-1之间。加标回收率在66.5%~106%之间,相对标准偏差(n=5)在3.1%~8.6%之间。     

气泡微萃取-气相色谱-质谱法测定尿中咖啡因

建立了气泡微萃取结合气相色谱/质谱技术(GC-MS)测定尿中咖啡因的方法.对影响萃取效率的实验条件进行了优化,确定了最佳萃取条件:三氯甲烷作为萃取溶剂,萃取溶剂暴露体积1 μL,气泡体积1.6 μL,搅拌速度300 r/min,萃取时间5 min,盐度15%(m/V),气泡与磁子间距离1 cm.在优化条件下,所建立方法在咖啡因浓度0.005~10 mg/L范围内有较好的线性关系,相关系数可达0.986,检出限为0.003 mg/L.在人尿液中添加不同浓度的咖啡因(0.050、0.500和5.000 mg/L),回收率为89.2%~107.5%,相对标准偏差小于8%(n=6).     

液液萃取-气相色谱-质谱法测定墨水中的16种多环芳烃

采用液液萃取-气相色谱-质谱法测定墨水中的16种多环芳烃。样品经二氯甲烷液液萃取后,使用固相萃取技术进行纯化。在气相色谱分离中用DB-5MS色谱柱为固定相,在质谱分析中采用选择离子监测模式。16种多环芳烃在一定的质量浓度范围内与其峰面积呈线性关系,方法的检出限(3S/N)在5.0~30μg·kg-1之间。以空白样品为基体进行加标回收试验,所得回收率在60.6%~116%之间,测定值的相对标准偏差(n=6)在1.5%~5.3%之间。     

小体积液液萃取气相色谱-质谱法测定水体中邻苯二甲酸酯

采用小体积液液萃取气相色谱-质谱(GC-MS)法测定水体中邻苯二甲酸酯,有效地避免了各种空白干扰。该法以正己烷为萃取剂,对6种目标化合物的富集倍数达8～321倍。在0.40～20.0μg/L范围内线性良好,6种邻苯二甲酸酯的检出限在0.01～0.10μg/L范围内,适用于实际水体中低浓度邻苯二甲酸酯的测定。     

液液萃取-气相色谱/质谱法测定地表水中的15种酞酸酯

酞酸酯是《地表水环境质量标准》要求的必测项目,但其实验本底值一直是准确定量的不确定因素,本文探讨了实验过程中引进酞酸酯污染的主要环节及其主要来源,建立了液液萃取-气相色谱/质谱联用测定地表水中15种酞酸酯的方法。实验结果表明,测试过程中主要的本底为邻苯二甲酸二甲酯、二乙酯、二异丁酯、二丁酯及邻苯二甲酸(2-乙基己基)酯5类物质,溶剂是主要来源。扣除实验本底后,15种酞酸酯的线性相关系数均大于0.99,空白水样高、低浓度的加标回收率均在70%~110%之间,方法的精密度(RSD)10%,当采样体积为1.0L时,15种酞酸酯的方法检出限为0.04~0.16μg/L。3种城市地表水样的加标回收率在74%~105%之间。     

溶剂去乳化-悬浮固化分散液液微萃取-气相色谱-质谱联用测定水中的有机氯农药

建立了溶剂去乳化-悬浮固化分散液液微萃取技术结合气相色谱-质谱联用技术同时测定水样中8种有机氯农药的方法。以正十六烷作为萃取剂,将其与分散剂丙酮混合后,快速注入水样,获得乳化体系并完成萃取;然后加入丙酮作为去乳化剂破坏乳化体系,不需要经过离心即能使两相分层;经冰浴冷冻使其固化后,取出上层凝固的有机相(正十六烷)在室温下融化,取上清液进行GC-MS分析。考察了萃取剂、分散剂、去乳化剂的种类和体积,水样盐浓度和pH值对萃取效率的影响。结果表明,8种有机氯农药在0.025~2.00 μg/L范围内有良好的线性关系(r=0.9995~0.9999), 8种有机氯农药的检出限为0.012~0.024 μg/L,精密度为3.15%~4.53%,富集倍数为96~101。将该方法应用于农田池塘水的测定,加标回收率为96.77%~102.93%,精密度为2.68%~4.86%。方法快速灵敏,有机溶剂消耗少,对环境友好,操作简便,适用于水中有机氯农药的批量分析,并为实现其样品前处理的自动化提供了技术和方法学的支持。     

分散液液微萃取/气相色谱-质谱法测定蜂蜜中六六六和滴滴涕类农药残留

建立了分散液液微萃取(DLLME)与气相色谱-质谱法(GC-MS)联用快速检测蜂蜜中六六六(BHC)和滴滴涕(DDT)类农药残留的分析方法.使用三氯甲烷为萃取剂,通过涡旋、离心使分析物富集到微量三氯甲烷中,采用气相色谱-质谱进行分析.实验对影响DLLME萃取效率的因素,如萃取剂种类和体积、分散剂种类和体积、萃取时间等进行了考察,同时对方法的基质效应和性能进行了评估.结果显示:由于基质效应,8种六六六和滴滴涕类农药都出现信号增强现象.8种六六六和滴滴涕类农药在2~500 μg/L范围内线性关系良好,相关系数(r²)为0.991~0.998,方法富集倍数为74~96;当试样的加标水平为20、50和100 μg/kg时,8种六六六和滴滴涕类农药的回收率为61.0%~100.1%,相对标准偏差(RSD, n=5)为2.2%~19.5%.8种六六六和滴滴涕类农药的最低检测浓度均为20 μg/kg,最小检出量皆为1.0 ng.该方法简单、快速、高效,适用于蜂蜜中六六六和滴滴涕类农药的残留检测.     

Dispersive liquid-liquid microextraction followed by gas chromatography-mass spectrometry for the determination of nitro musks in surface water and wastewater samples

A new, simple, fast and high sensitive analytical method based on dispersive liquid-liquid microextraction (DLLME) followed by gas chromatography-mass spectrometry (GC-MS) for the simultaneous determination of nitro musks in surface water and wastewater samples is presented. Different parameters, such as the nature and volume of both the extraction and disperser solvents and the ionic strength and pH of the aqueous donor phase, were optimized. Under the selected conditions (injection of a mixture of 1 mL of acetone as disperser solvent and 50 μL of chloroform as extraction solvent, no salt addition and no pH adjustment) the figures of merit of the proposed DLLME-GC-MS method were evaluated. High enrichment factors, ranging between 230 and 314 depending on the target analyte, were achieved, which redound to limits of detection in the ng L⁻¹ range (i.e., 4-33 ng L⁻¹). The relative standard deviation (RSD) was below 5% for all the target analytes. Finally, the recoveries obtained for different water samples of diverse origin (sea, river, irrigation channel and water treatment plant) ranged between 87 and 116%, thus showing no matrix effects.     

液液萃取-分散液液微萃取-气相色谱-质谱联用测定纺织废水中痕量禁用偶氮染料

建立了液液萃取-分散液液微萃取-气相色谱-质谱联用技术测定纺织废水中痕量偶氮染料的方法。废水中的偶氮染料在碱性条件下经连二亚硫酸钠还原成芳香胺后,先用叔丁基甲醚液液萃取、盐酸反萃进行预浓缩及净化;再以乙腈-氯苯体系进行分散液液微萃取,气相色谱-质谱测定。对前处理条件进行了优化,考察了酸碱度及盐效应对芳香胺萃取效率的影响,结果表明:液液萃取过程中加入30 g NaCl,分散液液微萃取过程中加入1 mL 5 mol/L的NaOH调节体系至碱性才能达到较好的萃取效率。在优化的实验条件下,21种目标物均呈现良好的线性关系,其中13种芳香胺的线性范围为0.05～10μg/L, 7种芳香胺的线性范围为0.05～5μg/L, 2,4-二氨基苯甲醚的线性范围为20～100μg/L,相关系数为0.996～0.999。20种芳香胺的检出限可达0.05μg/L, 2,4-二氨基苯甲醚检出限为20μg/L。印染、机织、印花等实际废水加标试验表明,方法的回收率为75.6%～115.1%。该方法富集倍数高,检出限低,适用于纺织废水中痕量禁用偶氮染料的检测。     

原位衍生分散液相微萃取-气相色谱-质谱快速测定水中的四溴双酚A

通过研究萃取剂、分散剂的种类和体积,KHCO3用量,衍生剂乙酸酐的用量和萃取时间对萃取效率的影响,建立了原位衍生分散液相微萃取-气相色谱质谱联用测定水中四溴双酚A的方法.方法线性范围:0.5～ 100 μg/L,检出限:0.1μg/L;RSD:5.4％ (n =5).将该方法用于环境水样的测定,加标回收率:53.5％ ...     

Electrically assisted solid-phase microextraction combined with liquid chromatography-mass spectrometry for determination of parathion in water

A novel method for electrically assisted microextraction coupled to liquid chromatography-mass spectrometry was evaluated for determination of trace levels of parathion in water. A pencil lead electrode was used in a di-electrode system to extract parathion onto the electrode surface with a reductive potential applied. The optimum extraction conditions were found to be a potential of −600 mV for 60 s in pH 2 phosphate buffer solution. The parathion was desorbed statically for 1 min and dynamically for 3 min in the commercial SPME-HPLC desorption chamber, then analyzed with LC-APCI-MS/MS. The detection limit (LOD) for parathion in water was found to be 0.3 ng/mL. The proposed technique was demonstrated to be fast, sensitive and not require a solvent sample pretreatment.     

Switchable‐hydrophilicity solvent‐based microextraction combined with gas chromatography for the determination of nitroaromatic compounds in water samples

A simple, fast, sensitive, and low‐cost method was developed for the quantification of nitroaromatic compounds in water samples based on CO₂‐assisted liquid‐phase microextraction using a switchable‐hydrophilicity solvent followed by gas chromatography detection. Dipropylamine was used as extraction solvent with switchable hydrophilicity that can be miscible or immiscible upon the addition or removal of CO₂ as a reagent. Experimental parameters affecting the extraction efficiency such as the volume of acceptor phase, the volume of donor phase, pH of donor phase, ionic strength, and extraction time were investigated. Under the optimal conditions, detection limits and preconcentration factors were obtained in the ranges of 0.9–1.8 μg/L and 132–138, respectively. Also, the extraction recoveries of water samples were above 88%. Finally, the developed method was successfully applied to the determination of nitroaromatic compounds in real water samples.     

分散液-液微萃取与气相色谱-质谱联用分析环境水样中痕量的2,4-二硝基甲苯和磷酸三(2-氯乙基)酯

建立了分散液-液微萃取与气相色谱-质谱联用同时测定环境水样中痕量2,4-二硝基甲苯和磷酸三(2-氯乙基)酯的新方法。对影响萃取效率的因素进行了详细的考察和优化,确定采用的最佳萃取条件为: 将0.8 mL乙醇和60 μL氯仿的混合溶液快速注入5.0 mL的样品溶液中,振动混匀120 s后,离心分离,吸取沉积在试管底部的氯仿相直接进样分析。该方法对磷酸三(2-氯乙基)酯和2,4-二硝基甲苯的检出限(信噪比为3)分别为0.01和0.04 μg/L,富集倍数分别为96.6和127.5;两种物质的线性范围达3到4个数量级;日内和日间测定的相对标准偏差(RSDs, n=6)分别为8.6%～11.5%和8.9%～12.0%。将该方法用于环境水样中2,4-二硝基甲苯和磷酸三(2-氯乙基)酯的分析,其加标回收率为102.1%～110.9%。方法具有操作简单、方便快速、灵敏度高、无交叉污染和环境友好等优点。     

Determination of nitroaromatic explosives in water samples by direct ultrasound-assisted dispersive liquid-liquid microextraction followed by gas chromatography-mass spectrometry

A fast, simple, inexpensive, sensitive, efficient and environmental friendly direct ultrasound-assisted dispersive liquid-liquid microextraction (DUSA-DLLME) procedure has been developed to concentrate five nitroaromatic explosives from water samples prior to quantification by gas chromatography-mass spectrometry (GC-MS). An efficient ultrasonic probe has been used to radiate directly the samples producing very fine emulsions from immiscible liquids. A D-optimal design was used for optimizing the factors and to evaluate their influential upon extraction. The optimum experimental conditions were: sample volume, 10 mL; extraction time, 60 s; cycles, 0.6 s(s⁻¹); power of ultrasound energy, 40% (70 W); and, extractant solvent (chlorobenzene) volume, 20 μL. Under the optimized experimental conditions the method presents good level of repeatability with coefficients of variation under 6% (n = 8; spiking level 10 μg L⁻¹). Calculated calibration curves gave high level of linearity with correlation coefficient values between 0.9949 and 0.9992. Limits of detection were ranged between 0.03 and 0.91 μg L⁻¹. Finally, the proposed method was applied to the analysis of two types of water samples, reservoir and effluent wastewater. The samples were previously analysed and confirmed free of target analytes. At 5 μg L⁻¹ spiking level recovery values ranged between 75 and 96% for reservoir water sample showing that the matrix had a negligible effect upon extraction. However, a noticeable matrix effect (around 50% recovery) was observed for effluent wastewater sample. In order to alleviate this matrix effect, the standard addition calibration method was used for quantitative determination. This calibration method supplied recovery values ranged between 71 and 79%. The same conclusions have been obtained from an uncertainty budget evaluation study.     

液液萃取-气相色谱-质谱联用法同时检测烟用水基胶中的23种酯类化合物

建立了一种同时检测烟用水基胶中23种酯类化合物的液液萃取-气相色谱-质谱联用方法。23种酯类化合物包括乙酸酯类、丙烯酸酯类、甲基丙烯酸酯类、邻苯二甲酸酯类化合物。水基胶样品经水分散后,用含内标物丙酸苯乙酯的正己烷溶液振荡萃取,萃取液离心后过0.45 μm有机相滤膜,用DB-WAXETR气相色谱柱(60 m×0.25 mm×0.25 μm)分离,质谱选择离子模式监测,内标法定量。结果表明,23种酯类化合物在0.4~50.0 mg/L范围内线性关系良好,线性相关系数大于0.998,样品加标回收率为81.8%~109.1%,相对标准偏差(RSD, n=5)小于4%,检出限为0.02~0.76 mg/kg,定量限为0.04~2.52 mg/kg。该方法前处理简便、快速、分析时间短、灵敏度高、重复性好,可用于烟用水基胶中23种酯类化合物的同时检测。