聚乙二醇二甲基丙烯酸酯整体柱固相萃取-高效液相色谱法测定血清中卡马西平和10-羟基卡马西平

使用乙二醇二甲基丙烯酸酯（EDMA）在注射器中构筑固相萃取整体柱,并结合高效液相色谱法,建立了测定血清中卡马西平（CBZ）和10-羟基卡马西平（MHD）的分析方法。实验考察了反应温度和反应时间对整体柱萃取性能的影响和淋洗溶液种类、洗脱溶液种类及体积对固相萃取的影响。在优化条件下,该固相萃取柱对血清中CBZ和MHD能够有效富集、净化。对0.02~40 μg/mL CBZ和0.05~100 μg/mL MHD标准溶液进行分析,结果表明,在各自的范围内CBZ和MHD线性关系良好,相关系数（r）均为0.999。CBZ和MHD的检出限分别为0.004 μg/mL和0.01 μg/mL;在3个加标水平下,CBZ和MHD的平均回收率分别为92.7%和94.2%,日内（n=3）和日间（n=3） RSD≤6.1%。该固相萃取柱批内（n=3）和批间（n=5） RSD≤5.3%,反复使用8次的RSD≤5.8%。该法简单、高效,适用于癫痫患者血清中CBZ和MHD的测定。     

固相萃取-高效液相色谱法测定水中洛克沙胂

建立了水中洛克沙胂固相萃取-高效液相色谱检测方法。水样pH<2时,用高分子聚合物萃取柱(Poly-Sery PSD)对洛克沙胂富集后,用乙酸乙酯和丙酮混合液(体积比4∶1)1 mL淋洗除去干扰物和柱上残留水分,柱上洛克沙胂用5 mL丙酮洗脱。洗脱液经N2吹至近干,用体积分数0.05%H3PO4溶液定容至0.50 mL于液相色谱检测。以Shimpak-ODS C18柱为分析柱,以V(甲醇):V(100mL/L甲酸溶液):V(0.02 mol/L KH2PO4溶液)=60:20:20为流动相。柱温为30℃,流速1.0 mL/min,检测波长为267 nm。在0.01~5.0 mg/L范围内相关系数大于0.999。空白水中不同浓度的加标回收率在83%~91%之间,相对标准偏差在5.1%~13%之间。方法用于检测饲料加工厂和养鸡场厂房周边的排污废水,部分样品中检出洛克沙胂,质量浓度范围在0.041~0.053μg/L之间。     

固相萃取-高效液相色谱法测定水产品中喹乙醇

建立了固相萃取-高效液相色谱法测定水产品中喹乙醇的方法。匀浆后的水产品试样经甲醇溶液提取、正己烷除脂、固相萃取小柱直接净化浓缩后,以体积分数15%的甲醇溶液作为流动相,流速:1.0 m L/min,采用Symmetryshield TM RP18色谱柱进行分离,紫外检测器检测,外标法定量。方法的检出限和定量限分别为0.02 mg/kg和0.05 mg/kg,浓度在0.05~1.00 mg/L范围内,线性良好(r=0.9999)。添加浓度在0.05~1.00 mg/kg时,不同品种水产品的回收率在78%~99.6%之间,相对标准偏差小于7.7%。方法适合于水产品样品的成批定量检测。     

固相萃取/反相高效液相色谱法对血清中胰岛素的测定

采用固相萃取纯化血清样品,荧光胺柱前衍生,建立了反相高效液相色谱/荧光检测血清中胰岛素的方法.色谱条件:LunaC5柱(100 mm×4.6 mm,5 μm)分离,流动相为乙腈-Tris缓冲溶液(10 mmol/L,pH 8.5)梯度洗脱,流速:1 mL/min.激发波长(λex)273 nm,发射波长(λem)476 nm,进样量20 μL.结果表明:胰岛素在10 ～800 μg/L范围内峰面积和质量浓度呈良好的线性关系,相关系数r为0.997 1;检出限为5 μg/L.日内、日间精密度分别为1.5%、1.0%,回收率为92%.     

在线固相萃取-高效液相色谱法测定水体中的多环芳烃

建立了在线固相萃取-液相色谱测定水体残留的多环芳烃的方法,用于测定自来水中的20种多环芳烃( PAHs)。直接进样1 mL经过过滤的水体样品,其中的被测组分富集在SPE柱( Acclaim PA II,50 mm×4.6 mm,3μm)上,在线完成净化和萃取富集;再通过阀切换将它们转移至分析流路,在Hypersil Green PAH色谱柱(150 mm ×3 mm,3μm)上分离检测。在线固相萃取流路以水和乙腈为流动相,0.4和0.6 mL/min流速梯度富集/萃取和洗脱;分析流路亦以水和乙腈为流动相,0.8 mL/min流速梯度洗脱,采用紫外254 nm检测无荧光效应的苊烯和弱荧光效应的萘,其它的多环芳烃化合物则于不同的荧光检测通道里,在其对应的最大激发/发射波长下灵敏测定。整个分析流程32 min即可完成。20种PAHs的保留时间的相对标准偏差均小于0.2％,色谱峰面积的相对标准偏差均小于1.3％(n=7);在3个浓度数量级范围内峰面积与进样质量浓度的线性相关系数均大于0.9910,0.05μg/L的自来水加标样品的回收率为57％~140％,5μg/L的自来水加标样品的回收率为85％~116％;多数有荧光响应的PAHs的方法检出限均小于0.02μg/L (S/N=3)。     

固相微萃取高效液相色谱法测定食品中己烯雌酚

建立了固相微萃取(SPME)-高效液相色谱(HPLC)联用测定食品中己烯雌酚(DES)的方法.考察了萃取纤维头、萃取时间、解吸时间和盐的添加对萃取效果的影响.在此基础上,采用正交试验,以解析液组成、萃取液pH和搅拌速度为3因素筛选出了最佳固相微萃取条件.该分析方法的线性范围为0.02 ～2.0μg/ml,工作曲线线性良...     

竹炭固相萃取-高效液相色谱法测定河水中多环芳烃

建立了竹炭固相萃取-反相高效液相色谱法检测水中16种多环芳烃的方法。通过实验综合分析,选定正己烷为洗脱溶剂,洗脱溶剂体积为15mL,上样速率为5mL/min,上样体积为750mL。此萃取条件下的萃取回收率在50.3%～143.2%之间。经萃取后,方法的最低检出限范围为0.011～0.069μg/L,精密度在3.3%～11%之间。用该法测定河水中多环芳烃的含量,水样的加标回收率在50.3%～138.4%范围内。     

固相萃取-高效液相色谱法测定烟草样品中10种多酚

研究了用固相萃取预分离,高效液相色谱法测定烟草样品中的10种植物多酚。烟草样品中的多酚提取液用SepParkC18固相萃取小柱预分离脱脂,以WatersNovaPakC18(3.9mm×150mm,5μm)色谱柱为固定相,0.05mol/L磷酸二氢钾缓冲溶液和甲醇梯度洗脱为流动相,烟草中主要的植物多酚均达到基线分离;用紫外二级管矩阵检测器检测,得出各组分在其最大吸收波长下的色谱图,根据该色谱图的峰面积定量,并用紫外光谱图对烟草中主要多酚进行辅助定性。标准回收率为94%~105%;RSD为1.3%~1.5%。用该方法测定了烟草样品中的10种植物多酚,结果令人满意。     

固相萃取-高效液相色谱法测定环境水样中的三嗪类化合物

建立了固相萃取-高效液相色谱法(SPE-HPLC)测定地表水中三嗪类化合物的方法。考察了4种不同固相萃取柱对三嗪类化合物的吸附效果,最终选择ENVI-18固相萃取柱用于萃取地表水中的三嗪类化合物;系统研究了环境水样中三嗪类化合物的最佳固相萃取条件,选择洗脱溶剂为甲醇,洗脱溶剂用量5 mL,水样在萃取前不需要添加甲醇,不调节pH值。测定了方法的检测限,结果表明,扑草净、莠去津、西玛津、脱乙基莠去津、羟基化莠去津和脱异丙基莠去津的最低检测限依次为0.14 μg/L,0.12 μg/L,0.08 μg/L,0.08 μg/L,0.10 μg/L和0.18 μg/L。将该法应用于实际环境水样的分析测定,结果表明某湖水中扑草净的含量为（9.33±0.27） μg/L,某江水中莠去津和扑草净的含量分别为（5.28±0.43） μg/L和（7.12±0.54） μg/L。     

固相萃取-高效液相色谱法测定食品中的酸度调节剂

建立了固相萃取-高效液相色谱法(SPE-HPLC)同时测定食品中的7种酸度调节剂(酒石酸、苹果酸、乳酸、乙酸、柠檬酸、富马酸、己二酸)含量的方法.样品经SAX强阴离子交换柱净化,高效液相色谱分析,色谱条件为采用Synergi4u Hydro-RP色谱柱,以KH2PO4缓冲溶液-乙腈(用H3PO4调PH值为3.2)为流动...     

Determination of catechins and catechin gallates in biological fluids by HPLC with coulometric array detection and solid phase extraction

Tea polyphenols are well known for their beneficial health effects that involve their anti-carcinogenic, anti-mutagenic, anti-pathogenic and anti-oxidative properties. The main polyphenols of green tea are favan-3-ols (catechins) and their corresponding gallate compounds, which constitute about one-third of the dry weight of tea leaves. Their main ingredients are (+)-catechin (C), (−)-epicatechin (EC), (−)-gallocatechin (GC), (−)-epigallocatechin (EGC), (−)-catechin gallate (CG), (−)-epicatechin gallate (ECG), (−)-gallocatechin gallate (GCG) and (−)-epigallocatechin gallate (EGCG). Each has slightly different biological properties. We have developed a method to simultaneously analyze all these compounds in plasma and urine. The samples were first incubated with β-d-glucuronidase and sulfatase to release the catechin residues from their corresponding conjugates for subsequent extraction by selective solid phase column, Waters Oasis HLB extraction cartridges. The extracted molecules were resolved by reversed phase HPLC and monitored by coulometric chemical detection on a CoulArray detector. All eight catechin compounds were analyzed in a single chromatogram within 25 min. For plasma and urine analyses, good linearity (>0.9950) was validated in the range 10-2000 and 10-5000 ng/ml, respectively. The coefficients of variance (CV) were less than 5%. Absolute recovery was greater than 85% and detection limit was 5 ng/ml. The chromatogram exhibited minimal interference as a result of the highly selective solid phase extraction and CoulArray detection.     

Determination of pesticides in water samples by solid phase extraction and gas chromatography tandem mass spectrometry

A multiresidue method for the determination of more than 80 pesticides in water has been developed and validated. The proposed method is based on SPE followed by GC coupled to MS/MS. Different variables affecting SPE procedure, such as cartridges, sample volume and solvents were studied, and mass spectrometric conditions were optimised in order to increase selectivity and sensitivity. Calibration curves were linear over the range of 0.03-0.5 microg/L. Recoveries were in the range of 70-110% and repeatability was below 20% for the lowest calibration point. LODs ranged from 0.001 to 0.025 microg/L and LOQs from 0.003 to 0.076 microg/L. Finally, the method was successfully applied to the analysis of water samples from southeast of Spain.     

Environmental analysis of organic compounds in water using solid phase micro extraction

Solid Phase Micro Extraction (SPME) involves exposing a fused silica fiber coated with stationary phase to a contaminated water sample. The organic analytes become partitioned between the stationary phase and the water and when equilibrium is reached the fiber is removed from the solution and the analytes are thermally desorbed in the injector of a gas chromatograph. The fiber is contained in a syringe to facilitate handling. Factors which affect linear range, limit of detection, and total analysis time are discussed with regard to the development of a method for analysis of volatile compounds in environmental water samples. The sensitivity of the method was determined by the thickness of the film of stationary phase; the equilibration time, however, increased with the film thickness, although it can be minimized by use of a cross-shaped stirrer bar. Increasing the thickness of stationary phase in the analytical column enables the cryofocusing temperature to be increased from ?40 to ?15°C. With an ion trap mass spectrometer, detection limits required by the US Environmental Protection Agency are met for all compounds except chloromethane and chloroethane. The method has been applied to environmental water samples.     

离子交换固相萃取高效液相色谱联用法检测河豚鱼中的河豚毒素

优化建立了采用混合模式阳离子交换固相萃取柱代替传统的C18固相萃取柱进行前处理,联用高效液相色谱检测河豚鱼中河豚毒素的方法.样品经合1％乙酸的乙腈甲醇(3:1,V:V)溶液提取,混合模式阳离子交换固相萃取柱(MCX)净化,5％氨水/甲醇溶液洗脱,采用高效液相色谱-二极管阵列检测器(HPLC-PAD)测定,外标法定量.河...     

Determination of terpenoids in wines by solid phase extraction and gas chromatography

A new method for determination of volatile terpenoids in wine is proposed. An off-line solid phase extraction—gas chromatographic method has been used for the determination. The influence of several extraction variables was studied, including the solid phase employed (C-18 versus divinylbenzene-based), eluting solvent (n-pentane, dichloromethane, ethanol and methanol), volume of eluting solvent (1-4 ml) and drying time (0-20 min). Complete recovery of volatile terpenoids from several kinds of wines was obtained under the optimized conditions.     

钯与对若丹宁偶氮苯甲酸络合物的固相萃取和光度测定

根据新试剂对若丹宁偶氮苯甲酸(RABA)与钯的显色反应及C18固相萃取小柱对显色络合物的固相萃取,建立了一种测定痕量钯的新方法,在pH为2.0～4.0的HCl-邻苯二甲酸氢钾(HCl-KHP)缓冲介质中,在CTMAB存在下,钯与RABA发生反应形成1:1的稳定络合物,该络合物可用C18固相萃取小柱富集,小柱上富集的络合物用乙醇洗脱后用光度法测定,在富集后的测定液中,络合物最大吸收波长为500 nm,摩尔吸光系数ε=1.36×105 L·mol-1·cm-1,Pd2 量在0.1～1.0 μg/mL内符合比尔定律,方法用于催化剂中钯的测定.     

固相萃取光度法测定烟草中的挥发酚

研究了用Waters Sep-Park-C18固相萃取小柱萃取测定烟草样品中的挥发酚的方法。用自动水蒸汽蒸馏仪蒸馏出烟草样品中的挥发酚,4-氨基安替比林显色,显色产物可用Waters Sep-Park-C18固相萃取小柱萃取,以乙醇洗脱后用分光光度法测定,该方法可用于烟草样品中挥发酚的测定。     

Ultratraces analysis of organochlorine pesticides in drinking water by solid phase extraction coupled with large volume injection/gas chromatography/mass spectrometry

This study describes an SPE coupled with large volume injection (LVI) analytical method for the analysis of organochlorine pesticides, BHC (alpha, beta, delta), aldrin, endosulfan (alpha, beta), endrin, dieldrin, and DDT, from aqueous samples. Determination was carried out by GC with MS. The LODs of organochlorine pesticides were determined at 10 ng/L concentration levels, and the results show that SPE-LVI-GC/MS has the potential to accurately determine organochlorine pesticides in water, as it avoids analyte classes in the various steps of a typical extraction procedure.     

Fluorometric determination of nonylphenol in water samples enriched with zirconium doped titanium dioxide nanotubes solid phase extraction

This paper developed a fluorometric method for the sensitive determination of nonylphenol in water samples by preconcentration with zirconium doped titanium dioxide nanotubes solid phase extraction.The parameters on extraction that would influence the enrichment performance such as the kind and volume of eluent,sample pH,sample flow rate,and sample volume were optimized in detail.Under the optimal conditions,the proposed method provided an excellent linear range of 1-150 mg/L and good LOD of 0.076 mg/L.The relative standard deviation(RSD,n = 6) was 2.8%.Proposed method was also used for the analysis of real water samples and the spiked recoveries were satisfied in the range of 98.7-103%.     

Simultaneous determination of pharmaceutically active compounds in wastewater samples by solid phase extraction and high-performance liquid chromatography with diode array and fluorescence detectors

In the present work, an analytical method for the simultaneous determination of five anti-inflammatory drugs (acetaminophen, diclofenac, ibuprofen, ketoprofen and naproxen), an antiepileptic drug (carbamazepine) and a nervous stimulant (caffeine) is proposed for the routine analysis of these pharmaceuticals in wastewater influents and effluents from WWTPs. The method involves pre-concentration and clean-up by solid phase extraction (SPE) using Oasis HLB extraction cartridges. Final analysis of the selected pharmaceutical compounds was carried out by high-performance liquid chromatography (HPLC) with diode array detector (DAD). Confirmation of the presence of the fluorescence compounds (ibuprofen and naproxen) was performed by on-line fluorescence detection. Recoveries were ranged from 71 to 103% with relative standard deviation below 15.1%. Limits of quantification were in the range 6.2–319.8 and 3.0–160.0 ng ml⁻¹ for influent and effluent wastewater samples, respectively. The described method was applied to the determination of the drugs in wastewater samples from four treatment plants in Seville.