基于整体材料搅拌棒固相萃取高效液相色谱联用测定饲料和水样中硝基呋喃类药物残留

利用自制的以聚(乙烯基咪唑-二乙烯基苯)(VIDB)整体材料为涂层的固相萃取搅拌棒(VIDB-SBSE)萃取3种硝基呋喃类药物,然后与高效液相色谱-二极管阵列检测器联用建立了测定饲料和水样品中硝基呋喃类药物残留的方法。详细考察了萃取过程中萃取和解吸时间、样品基质的pH值以及离子强度等实验条件对萃取效率的影响。在最佳条件下,呋喃唑酮的线性范围为0.5~200μg/L,呋喃妥因和呋喃西林的线性范围为0.25~200μg/L,3种目标物的检出限(LO D)(S/N=3)在0.068~0.11μg/L之间,所建方法具有理想的日内和日间重现性(R SD值均小于6%)。在对饲料和实际水样的测定中,不同加标浓度呋喃唑酮、呋喃妥因和呋喃西林的回收率在80.6%~108%之间。研究表明,所建立的方法具有简便、灵敏、环境友好等特点。     

邻-硝基酚分子印迹聚合物为涂层固相萃取搅拌棒的制备及其萃取性能研究

以邻-硝基酚为模板,甲基丙烯酸二甲胺乙酯和4-乙烯基吡啶为混合单体,利用整体材料"原位"聚合技术制备分子印迹聚合物为涂层的固相萃取搅拌棒(MIP-SBSE)。考察了制备条件对MIP-SBSE选择吸附性能的影响,并与高效液相色谱-二极管阵列检测器联用,探讨MIP-SBSE对环境水样中邻-硝基酚及其它酚类物质的选择萃取性能。考察了样品基底中离子强度、pH值以及吸附时间和解吸时间等萃取条件对目标化合物选择性能影响。结果表明,在最佳萃取条件下,MIP-SBSE对模板分子及其它酚类物质具有一定选择性能和较高的富集能力,对邻-硝基酚的线性范围为3.0～200μg/L;检出限LOD(S/N=3)为0.13μg/L;定量限LOQ(S/N=10)为0.40μg/L。在实际样品分析中,模板分子加标回收率为83.4%～120.9%;其它酚类物质的加标回收率在59.8%～129.0%之间。     

液液萃取-气相色谱/质谱法同时测定水样中3种三烷基硫代磷酸酯类化合物

本文建立了液液萃取-气相色谱/质谱同时测定水中O,O,S-三甲基硫代磷酸酯(TMPT)、O,O,S-三甲基二硫代磷酸酯(TMDTP)和O,O,O-三乙基硫代磷酸酯(TETP)3种三烷基硫代磷酸酯类化合物的分析方法。采用电子轰击(EI)-选择离子模式(SIM)进行定性与定量分析。考察了萃取剂种类、pH值以及盐度对萃取效率的影响。在优化的实验条件下,3种目标化合物的线性范围在0.01~2.0μg/mL之间,检出限(S/N=3)为0.26~1.1ng/L,定量限(S/N=10)为0.87~3.7ng/L。以该方法测定自来水、池塘水和湖水样品,3种目标化合物均未检出,不同加标水平(0.05、0.25和1.0μg/L)回收率在85.7%~104.2%之间,相对标准偏差在1.5%~12.2%之间。     

分子印迹聚合物为涂层的吸附萃取搅拌棒在环境水样双酚A含量测定中的应用

以双酚A(BPA)为单体,利用整体材料“原位”聚合技术制备以分子印迹聚合物为涂层的吸附萃取搅拌棒(MIP-SBSE),然后与高效液相色谱(HPLC)-二极管阵列检测器联用,探讨其对环境水样BPA的选择萃取性能。优化萃取过程中吸附和解吸时间、解吸液种类以及基底pH值和离子强度对目标化合物的选择吸附性能。在最佳条件下,MIP-SBSE可对模板分子进行有效的选择吸附,线性范围为1.0～200 μg/L,检出限(S/N=3)和定量限(S/N=10)分别为0.28μg/L和0.94 μg/L。在实际水样分析中,具有良好的加标回收率,其值为96.0%～108.7%。研究结果表明,所建立的方法具有简便、灵敏和环境友好等特点。     

凝固漂浮有机液滴-分散液液微萃取结合高效液相色谱法同时测定自来水中氯代多环芳烃与多环芳烃

建立了自来水中6种氯代多环芳烃和15种多环芳烃的凝固漂浮有机液滴-分散液液微萃取高效液相色谱分析方法,并探讨了萃取剂种类和用量、分散剂种类和用量、氯化钠含量及涡旋振荡时间等因素对萃取效率的影响。优化后的萃取实验条件为:10μL十二醇为萃取溶剂,500μL甲醇为分散溶剂,6%NaCl,涡旋振荡时间2 min。目标化合物经多环芳烃专用柱(SUPELCOSILTMLC-PAH,150 mm×4.6 mm,5μm)分离后,外标法定量。结果表明,21种目标化合物在一定质量浓度范围内线性良好,相关系数均不低于0.999;在低、中、高3个加标水平下的回收率为70.6%～98.7%,相对标准偏差(RSD)为2.0%～10%;方法的检出限(LOD,S/N=3)为0.000 7～0.009μg/L,定量下限(LOQ,S/N=10)为0.002 2～0.028μg/L。可用于自来水中氯代多环芳烃和多环芳烃的分析检测。     

水中氯苯类污染物的顶空液相微萃取 GC-MS法测定

研究了用顶空液相微萃取GC-MS法测定水中的痕量氯苯类有机污染物。通过实验选择正辛醇为萃取剂,考察了萃取剂的体积、萃取温度、萃取时间、搅拌速度、样品顶空体积以及盐效应等对萃取的影响。在最佳萃取和测定条件下,方法的线性范围为0.1~800μg/L,检出限(S/N=3)为0.05~0.1μg/L。用本方法测定了实际样品及回收率,结果满意。     

分散液液微萃取-高效液相色谱法测定水样中痕量2-萘酚

建立了分散液液微萃取-高效液相色谱法测定水样中2-萘酚的分析方法。对萃取剂、分散剂的种类和体积、萃取时间、离心时间、盐浓度等影响萃取效率的因素进行了优化。在优化后的萃取条件下(30μL氯苯作为萃取剂、0.8 mL乙腈作为分散剂、萃取时间为2 min、3000 rpm离心时间为5 min、不加盐)方法的线性范围为0.2~1000μg/L(r=0.9998),检出限为0.05μg/L(S/N=3)。2-萘酚质量浓度为100μg/L时,方法的萃取率为91.4%~105.4%,相对标准偏差为4.7%(n=11)。采用该方法对4种实际水样中的2-萘酚进行了测定,加标回收率在85.5%~104.4%之间,相对标准偏差在2.3%~12%之间(n=3)。本方法可用于环境水样中的痕量2-萘酚的检测。     

基于低共熔溶剂的涡旋辅助悬浮固化-分散液液微萃取/高效液相色谱法测定水中三氯生与三氯卡班

建立了基于低共熔溶剂的涡旋辅助悬浮固化-分散液液微萃取(VA-DLLME-SFDES)结合高效液相色谱测定水样中三氯生和三氯卡班的新方法。合成了6种疏水性低共熔溶剂(DES)并测定其密度、熔点和辛醇-水分配系数(K_(OW))。选取其中低密度、合适凝固点的DES作为萃取剂,样品经涡旋辅助萃取后冷冻,萃取剂固化附着于离心管内壁,弃去水相后,融化离心进样。最佳萃取条件为:选取由薄荷醇∶十二醇(摩尔比为1∶2)制备的DES作为萃取剂,萃取剂用量为70μL,水样pH值调至5.0,涡旋时间为1 min。在最优条件下,三氯生和三氯卡班分别在0.59～100μg/L和0.26～100μg/L质量浓度范围内线性关系良好(r~2=0.999 8),方法检出限(S/N=3)为0.08～0.18μg/L,富集倍数为141～148倍,回收率为86.0%～115%,日内精密度(n=6)和日间精密度(n=6)均不大于5.4%。该方法简便、快速,且萃取相易于收集,适用于水中三氯生和三氯卡班的测定。     

苄基功能化离子液体对有机磷和苯环化合物的分散液-液微萃取性能研究

以苄基功能化的离子液体1-苄基-3-甲基咪唑双三氟甲烷磺酰亚胺(1-Benzyl-3-methylimidazolium bis [(trifluoromethyl)sulfonyl]imide,[BeMIM][Tf2 N])作为分散液-液微萃取的萃取剂,与高效液相色谱联用,用于环境水样中5种有机磷农药(辛硫磷、杀螟松、毒死蜱、甲拌磷和对硫磷)以及2种苯环化合物(氯化萘和蒽)的萃取与富集。并与其它离子液体([OMIM][Tf2 N])以及普通有机溶剂(CCl4和 C2 Cl4)的萃取效能进行了对比。萃取优化条件为：40μL [BeMIM][Tf2 N]作为萃取剂,1 mL 甲醇作为分散剂,离心时间5 min,样品溶液中不添加盐。在优化的条件下,本方法的线性关系良好(R2=0.9994~0.9998);对10,40和100μg/ L 不同添加浓度重复测定5次的日内和日间 RSD 分别为1.1%~4.3%和0.8%~4.8%,LOD 为0.01~1.0μg/ L (S/ N=3)。将本方法用于3种实际水样中目标分析物的测定,加标回收率和 RSD 分别为82.7%~118.3%和0.7%~5.6%。由于在咪唑环上引入了苄基基团,[BeMIM][Tf2 N]与目标分析物之间除存在疏水作用外,还存在π-π作用,故对目标物的萃取效率明显提高,富集倍数和回收率分别高达339和81.4%。测定了分析物在[BeMIM][Tf2 N]-DLLME 体系中的分配系数,对萃取机制进行初步探讨。     

超高效液相色谱-串联质谱法同时测定水和沉积物中磺胺类、喹诺酮类和氯霉素类抗生素残留

建立了超高效液相色谱-串联质谱法(UPLC-MS/MS)同时测定水及沉积物中磺胺类、喹诺酮类和氯霉素类抗生素残留。水样前处理采用固相萃取,沉积物样品前处理采用加速溶剂萃取。该方法在9min内可完成目标化合物的UPLC-MS/MS分离分析。对于水和沉积物,20种目标化合物的检出限(S/N≥3)分别介于0.01~0.50ng/L和0.005~0.2μg/kg之间,在各自考察的浓度范围内线性关系良好(r≥0.995)。采用该方法测定了苏州地区地表水,共检出10种抗生素,浓度范围为0.79~240ng/L;测定底泥样品,共检出11种抗生素,浓度范围为0.37~27.0μg/kg。     

双酚A分子印迹聚合物为萃取介质搅拌饼固相萃取的制备及其萃取性能研究

以双酚A为模板,4-乙烯基吡啶为单体,利用整体材料"原位"聚合技术制备分子印迹聚合物为基质的萃取饼,并与利用一次性注射器空管加工而成的萃取器相结合,建立了分子印迹搅拌饼固相萃取(MIP-SCSE)技术。考察了制备条件对MIP-SCSE选择吸附性能的影响。在此基础上,与高效液相色谱-二极管阵列检测器联用,探讨MIP-SCSE对环境水样中双酚A及其它酚类物质的选择萃取性能,考察萃取过程中基底离子强度、pH值以及吸附与解吸时间等萃取条件对萃取性能的影响。结果表明;在最佳萃取条件下,MIP-SCSE对模板分子及其它酚类物质具有一定选择性能和较高的富集能力,对双酚A的线性范围为1.0～200μg/L;检出限LOD(S/N=3)为0.67μg/L;定量限LOQ(S/N=10)为2.24μg/L。在实际水样分析中,模板分子加标回收率为86.2%～112.2%。在MIP-SCSE使用过程中,萃取饼不与容器壁接触,因此具有优良的使用寿命,至少可连续使用600 h。     

环境样品中硝基苯类化合物的分析方法研究进展

主要介绍了我国近年来在环境样品中硝基苯类化合物的分析研究进展,内容包括:光度法(还原-偶氮光度法、阻抑动力学光度法、化学计量学分光光度法、人工神经网络-分光光度法)、气相色谱法(固相微萃取-毛细管气相色谱法、树脂吸附-气相色谱法、液-液微萃取气相色谱法、超声萃取-气相色谱法)、高效液相色谱法(反相高效液相色谱法、固相萃取-高效液相色谱法)和极谱法等分析方法。     

Sensitive determination of strongly polar aromatic amines in water samples by stir bar sorptive extraction based on poly(vinylimidazole-divinylbenzene) monolithic material and liquid chromatographic analysis

A simple and sensitive method for the determination of polar aromatic amines (PAAs) was developed using stir bar sorptive extraction (SBSE) coupling to high-performance liquid chromatography. A hydrophilic poly(vinylimidazole-divinylbenzene) (VIDB) monolithic material was prepared and acted as SBSE coating. The influences of polymerization conditions for VIDB on the extraction efficiency were investigated using aniline and 2,4-dinitroaniline as detected solutes. To achieve optimum extraction performance for PAAs, several parameters including extraction and desorption time, desorption solvent, ionic strength and pH value of sample matrix were investigated. The results showed that under the optimized experimental conditions, the method showed good sensitivity and excellent recoveries, as well as advantages such as linearity, simplicity, low cost and high feasibility. The extraction performance of present method to the target compounds also compared with commercial SBSE which using polydimethylsiloxane as coating and other SBSE which based on monolithic materials. Finally, the proposed method was successfully applied to the determination of PAAs in lake and sea waters, and excellent recoveries of spiked target compounds in real samples were obtained.     

液相色谱-质谱法同时测定塑料制品中的双酚A和四溴双酚A

建立了高效液相色谱-质谱同时测定塑料制品中的双酚A(BPA)和四溴双酚A(TBBP-A)的方法。采用超声波萃取技术萃取样品。系统地考察了前处理条件、色谱条件和质谱参数。实验表明,在50 ℃条件下,加入20 mL二氯甲烷对塑料样品中的BPA和TBBP-A超声提取60 min可获得较好的提取效果。以甲醇和水为流动相,采用液相色谱-质谱联用分离和检测BPA和TBBP-A。该方法的线性范围为0.1～2.0 mg/L; BPA和TBBP-A检出限分别为0.01 mg/kg和0.02 mg/kg;回收率为85.4%～97.6%。该方法分离时间短,操作简便,实用性强,灵敏度高,适用于塑料制品中双酚A和四溴双酚A的残留分析。     

Simultaneous determination of vitamin A and beta-carotene in dietary supplements by liquid chromatography

Several liquid chromatography (LC) methods for analysis of vitamin A in foods and feeds have been previously reported but only a few have been applied in non-food matrixes. A validated LC method is needed for determination of vitamin A and beta-carotene in the various matrixes presented by dietary supplements. The performance of a reversed-phase method with methanol-isopropanol gradient elution was evaluated with standard retinyl derivatives and beta-carotene. The reversed-phase method is capable of separating retinol from other derivatives such as retinyl acetate, retinyl palmitate, and beta-carotene. Two types of extraction were used to extract the analytes from the dietary supplements: a hexane-methylene chloride extraction for soft-gel capsules containing beta-carotene, and a direct solvent extraction for dietary supplements in tablet form. The direct solvent extraction consisted of treatment with ethanol and methylene chloride following addition of hot water (55 degrees C). Results with the reversed-phase method for vitamin A and beta-carotene in the products examined (n = 8) indicated excellent method performance. The main form of vitamin A or beta-carotene in dietary supplements was the all-trans isomer. The reversed-phase method avoids saponification and is rapid, accurate, precise, and suitable for simultaneous determination of retinyl derivatives and beta-carotene in dietary supplements.     

Novel sample preparation technique with needle-type micro-extraction device for volatile organic compounds in indoor air samples

A novel needle-type sample preparation device was developed for the effective preconcentration of volatile organic compounds (VOCs) in indoor air before gas chromatography–mass spectrometry (GC–MS) analysis. To develop a device for extracting a wide range of VOCs typically found in indoor air, several types of particulate sorbents were tested as the extraction medium in the needle-type extraction device. To determine the content of these VOCs, air samples were collected for 30 min with the packed sorbent(s) in the extraction needle, and the extracted VOCs were thermally desorbed in a GC injection port by the direct insertion of the needle. A double-bed sorbent consisting of a needle packed with divinylbenzene and activated carbon particles exhibited excellent extraction and desorption performance and adequate extraction capacity for all the investigated VOCs. The results also clearly demonstrated that the proposed sample preparation method is a more rapid, simpler extraction/desorption technique than traditional sample preparation methods.     

Development of a monolithic polymer pipette for solid-phase extraction of liquiritigenin in rat plasma

A monolithic polymer column with mixed-mode interaction was prepared by in situ polymerization in a 1000μL pipette.Two kinds of monomers,butyl methacrylate(BMA) and 2-(dimethylamino)ethyl methacrylate(DMAM) were applied to constructing the mixed-mode interaction of monolithic polymer column.Its solid-phase extraction properties for liquiritigenin(LQG) were evaluated by high performance liquid chromatography(HPLC) with a gradient elution procedure.After the extraction procedure was optimized,the maximum binding capacity and extraction recovery following the optimal extraction procedure were investigated.Calibration curve was expressed as A = 65.9C + 4.53(r~2 = 0.998) with a linear range of 0.151-1.80μg/mL.The experimental results indicate that the monolithic polymer pipette presents good extraction efficiency for LQG.It can be envisaged that the developed monolithic polymer pipette possesses the potential for its application to the enrichment of other flavonoids compounds being similar to the structure of LQG.     

Simultaneous determination of selected estrogenic endocrine disrupting chemicals and bisphenol A residues in whole milk using fabric phase sorptive extraction coupled to HPLC‐UV detection and LC‐MS/MS

A simple and sensitive analytical methodology is developed for rapid screening and quantification of selected estrogenic endocrine disrupting chemicals and bisphenol A from intact milk using fabric phase sorptive extraction in combination with high‐performance liquid chromatography coupled to ultraviolet detection/tandem mass spectrometry. The new approach eliminates protein precipitation and defatting step from the sample preparation workflow. In addition, the error prone and time‐consuming solvent evaporation and sample reconstitution step used as the sample post‐treatment has been eliminated. Parameters with most significant impact on the extraction efficiency of fabric phase sorptive extraction including sorbent chemistry, sample volume, extraction time have been thoroughly studied and optimized. Separation of the selected estrogenic endocrine disrupting chemicals including α‐estradiol, hexestrol, estrone, 17α‐ethinyl estradiol, diethylstilboestrol, and bisphenol A were achieved using a Zorbax Extend‐C18 high‐performance liquid chromatography column (15 cm × 4.6 mm, 5 μm particle size). The limit of detection values obtained in fabric phase sorptive extraction with high‐performance liquid chromatography with ultraviolet detection ranged from 25.0 to 50.0 ng/mL. The method repeatability values were 3.6–13.9 (relative standard deviation, %) and intermediate precision values were 4.6–12.7 (relative standard deviation, %). The fabric phase sorptive extraction method was also coupled to liquid chromatography with tandem mass spectrometry for identifying each endocrine disrupting chemical at 10 ng/mL.     

Simultaneous derivatization/preconcentration of volatile aldehydes with a miniaturized fiber-packed sample preparation device designed for gas chromatographic analysis

A novel in-needle sample preparation device has been developed for the determination of volatile aldehydes in gaseous samples. The needle device is designed for the gas chromatographic (GC) analysis of aldehydes and ketones commonly found in typical in-house environments. In order to prepare the extraction device, a bundle of polymer-coated filaments was longitudinally packed into a specially designed needle. Derivatization reactions were prompted by 2,4-dinitrophenylhydrazine (NDPH) included in the needle, and so the aldehydes and ketones were derivatized to the corresponding hydrazones and extracted with the extraction needle. A reproducible extraction needle preparation process was established, along with a repeatable derivatization/extraction process that ensures the successful determination of aldehydes. The storage performance of the extraction needle was also evaluated at room temperature for three days. The results demonstrate the successful application of the fiber-packed extraction device to the preparation of a gaseous sample of aldehydes, and the future possibility of applying the extraction device to the analysis of in-house environments.