PEG 800-Tween 80-(NH4)2 SO4-H2O双水相萃取紫外分光光度法测定银杏叶中的芦丁

采用聚乙二醇(PEG800)与吐温80(Tween80)组合表面活性剂、(NH4)2SO4、H2O形成双水相体系,研究芦丁在该双水相体系中的分配行为。用紫外分光光度法测定银杏叶中芦丁的含量。该体系对芦丁的平均萃取率为95．0％,测定芦丁浓度的线性范围为0～50ug／mL,相关系数r=0．9995。用该法对银杏叶中的芦丁进行测定,测定结果的相对标准偏差为3．1％,回收率为96．5％～105．2％。     

聚丙二醇-硫酸铵双水相萃取银杏黄酮

研究了银杏叶黄酮在聚丙二醇(PPG)400-(NH_4)_2SO_4双水相体系中的分配情况。探讨了单因素p H、PPG400质量分数、(NH_4)_2SO_4质量分数、料液比、温度、萃取时间对萃取率(Y%)和分配系数(K)的影响,并通过正交试验进一步优化双水相萃取条件。结果表明,各个因素对Y%和K影响为PPG400质量分数pH(NH_4)_2SO_4质量分数萃取时间萃取温度料液比。最佳萃取条件为p H 6、PPG400质量分数25%、(NH_4)_2SO_4质量分数15%、料液比1∶15、萃取温度40℃、萃取时间60min,黄酮萃取率达到98%以上。PPG400-(NH_4)_2SO_4双水相体系对银杏叶黄酮有较好的萃取效果。     

聚合物/磷酸盐双水相分离乳清分离蛋白中α-乳白蛋白和β-乳球蛋白条件的优化

建立了基于聚(乙二醇-ran-丙二醇)单丁基醚(聚合物)与磷酸盐、氯化钠的双水相体系对乳清分离蛋白(WPI)中的α-乳白蛋白(α-LA)和β-乳球蛋白(β-LG)进行分离,并对其分离条件进行了优化.系统地研究了双水相体系pH值、聚合物与KH2PO4溶液体积比、NaC1添加量和WPI浓度对α-LA和β-LG的分离效果的影响,采用液相色谱法对α-LA和β-LG的分离效果进行评价.结果表明,聚合物/KH2PO4双水相体系pH=4.0,40％ (m/m)聚合物与15.5％ (m/m)KH2PO4的体积比为4 mL∶4 mL,NaCl添加量为0.40 g/10 mL,WPI浓度为1 mg/mL时,α-LA和β-LG分离效果最好,上相中α-LA的萃取率为98.2％,下相中β-LG的萃取率为96.6％.     

乙醇-硫酸铵双水相萃取镉-碘化钾-罗丹明B离子缔合物

研究了在(NH4)2SO4存在下,碘化钾-罗丹明B-乙醇体系萃取Cd(Ⅱ)的行为及最佳分相条件。实验表明,在pH 1～3时,乙醇-(NH4)2SO4双水相体系对[CdI4]2-络阴离子的萃取率只有35.5%;加入罗丹明B后,该体系能完全萃取镉-碘化钾-罗丹明B形成的离子缔合物,而干扰离子Zn2+、Fe3+、Co2+、Cu2+、Ni2+不被萃取,实现Cd2+与上述离子的分离。     

甲醇-磷酸氢二钾-水双水相萃取-高效液相色谱检测肉类产品中四环素类残留

以甲醇-无机盐-水双水相体系,建立了一种高效的用于液相色谱法检测肉类产品中四环素类抗生素残留的样品前处理方法。实验考察了双水相的形成条件以及对四环素类药物的提取效率,用液相色谱法与瑞利散射法研究了蛋白质对甲醇-无机盐-水双水相体系萃取四环素的影响。结果表明,只有加入适量的磷酸氢二钾才能形成甲醇水双水相体系,该双水相体系对极性较强的四环素类药物具有较高的萃取效率;体积分数为70%的甲醇水溶液作为萃取液可以使肉类产品中的蛋白质基质发生缓慢而彻底地变性,有利于释放与蛋白质结合的药物。由于甲醇-K_2HPO_4-水双水相体系的上相萃取液中水溶性蛋白等杂质较少,样品净化步骤大大简化,在上相中加入少量PSA与C_(18)固体吸附剂,离心后取上清液即可进行HPLC分析。该方法用于肉类产品牛肉、鱼肉中四环素残留的萃取测定,回收率为76.8%~98.2%,检出限为0.039~0.084μg·g~(-1)。     

双水相萃取结合液相色谱法分离蛋白质

建立了PEG/( NH4)2SO4双水相体系萃取富集,结合液相色谱分离分析多种蛋白质的方法.考察了无机盐种类和浓度、PEG分子量、pH值和温度等因素对双水相形成以及对细胞色素C、肌红蛋白、牛血清白蛋白、溶菌酶、胰蛋白酶分配行为的影响.结果表明,上述5种蛋白在室温、pH 3.5～9.0范围内,可在15％ PEG-4000/10％ (NH4)2SO4双水相体系中得到富集,且主要集中在下相.同样条件下,血清中的高丰度蛋白在上下相均有分配,下相分配量较大.通过双水相萃取分离蛋白质及对液相色谱一定时间段的色谱峰收集,可初步实现血清中高丰度蛋白质的分离去除.     

离子液体双水相技术萃取头孢呋辛酯及其机理探究

通过研究离子液体四氟硼酸1-丁基-3-甲基咪唑( [Bmim]BF4)-Na2-CO3双水相体系对头孢呋辛酯的萃取性能,建立了萃取环境水样中头孢呋辛酯的双水相法.考察了双水相体系组成及相关条件对萃取率的影响,并对其萃取作用力及萃取机制进行了探索.结果表明,Na2CO3用量为0.8～2.0 9,[Bmim]BF4用量为1～2 mL时,随着二者用量的增加,萃取率有所增加.与[Bmim]C1/Na2CO3双水相体系相比,[Bmim]BF4/Na2CO3双水相体系更适于萃取头孢呋辛酯.热力学参数AG°T＜0,AH°r＞0,△S°T＞0,说明萃取过程的主要推动力为疏水性相互作用.在最佳萃取条件下,用此方法萃取环境水样中的头孢呋辛酯,二次萃取率大于93％,重现性好.整个萃取过程快速、高效且无乳化现象.     

异丙醇-(NH4)_2SO_4-H_2O双水相体系样品前处理结合GC/MS测定化妆品中苯系物

本文用异丙醇-(NH_4)_2SO_4-H_2O双水相体系高效提取化妆品中的苯系物(BTEX,苯、甲苯、乙苯、对二甲苯、间二甲苯和邻二甲苯),结合气相色谱-质谱联用(GC-MS)实现了对化妆品中六种BTEX的快速准确测定。实验主要考察了双水相体系的形成条件,并探讨了双水相体系对BTEX的萃取效率。实验结果表明:异丙醇不仅具有较好的破乳性能,而且对样品中BTEX有较高的提取效率;硫酸铵具有较好的盐析分相作用;化妆品中BTEX的萃取率与异丙醇水溶液的体积分数有关,当双水相体系中水与异丙醇的体积之比约为3∶2时,异丙醇与化妆品中的BTEX可接触充分,萃取率较高。该方法对化妆品中BTEX的测定回收率为81.1~98.2%,检出限为1.1~3.9 ng·g。     

双水相萃取法从风干香肠中分离提取蛋白酶

双水相萃取(ATPS)是近年来发展起来的蛋白纯化方法。为了扩展该方法适应领域,同时为风干香肠形成过程酶系的研究提供具体方法。本实验研究了运用双水相技术分离提取风干香肠中蛋白酶,对构成双水相体系中的PEG分子量、浓度和类型以及盐浓度的影响进行了分析。确定了双水相组成体系为20%PEG1000(m/m)和25%MgSO4(m/m),在此体系中风干香肠的蛋白酶主要分布在上相,最高酶活12.37U/μg;纯化倍数为4.61;回收率为85%。通过分子筛层析对比,表明风干香肠经过双水相分离提取杂蛋白峰被除去,而蛋白酶峰几乎未受到影响,说明该双水相体系萃取香肠中蛋白酶具有良好的专一性。调解双水相pH值对蛋白酶的萃取没有影响,而添加电解质NaCl反而产生不利影响。     

乙醇-K2HPO4-H2O双水相体系萃取-气相色谱质谱联用检测含醇饮料中的氨基甲酸乙酯

实验以含醇饮料中所含的乙醇为萃取剂,通过乙醇-K2HPO4-H2O双水相体系萃取结合气相色谱-质谱法,建立了一种检测含醇饮料中氨基甲酸乙酯的方法。考察了双水相体系的形成条件,探讨了双水相体系对氨基甲酸乙酯的萃取效率。实验结果表明:乙醇-K2HPO4-H2O双水相体系对氨基甲酸乙酯具有较高的萃取效率。含醇饮料中加入无机盐形成双水相时,饮料中的糖、蛋白质、单宁等大量极性杂质保留在双水相下相,氨基甲酸乙酯进入双水相上相。由于上相萃取液乙醇极性较强,因此上相中的杂质含量较低,萃取液净化步骤大大简化。在上相萃取液中加入无水MgSO4、PSA(primary secondary amine)去除水分与杂质后直接进样进行GC-MS检测。本文以氨基甲酸叔丁酯为内标准物质,用内标准曲线法定量检测了白酒、白兰地酒、杜松子酒、葡萄酒与黄酒中的氨基甲酸乙酯含量。方法回收率为91.6%~113.9%,RSD为0.70%~5.9%,检出限为1.3μg/L。     

Effects of different parameters on supercritical fluid extraction of steroid drugs, from spiked matrices and tablets

Feasibility of supercritical CO(2) extractions of two steroid drugs, medroxyprogesterone acetate (med) and cyproterone acetate (cyp), were evaluated. The effects of temperature (308-348 K), pressure (100-300 bar), static extraction time (5-15 min), dynamic extraction time (10-30 min) and percent methanol modifier (1-10% v/v) on the SFE recoveries of these drugs from spiked matrices (glass) and pharmaceutical dosages (tablets) were investigated. The results showed that minor structural differences between related compounds might lead to dramatically differences in extraction behaviors under the same conditions. The optimum SFE conditions to extract the drugs from spiked glass were 10 min static, 30 min dynamic, 300 bar, 348 K and 5% modifier in the case of med acetate and 10 min static, 30 min dynamic, 100 bar, 308 K, and 10% modifier in the case of cyp. Under these conditions above 90% of the total recovery was obtained for both drugs. Extractions from pharmaceutical dosages were less efficient compared to glass beads under the same conditions. Quantitative recovery of solutes from tablets were obtained upon changing extraction conditions to: 15 min static, 45 min dynamic, P=300 bar, 20% modifier (for med) and 10% (for cyp).     

Ionic Liquid-salt Aqueous Two-phase System, a Novel System for the Extraction of Abused Drugs

Extraction of drugs from complex sample is a crucial step for determination of drugs. However, most of existing extraction methods use poisonous volatile solvents1. The traditional aqueous two-phase system (ATPS) might be an alternative, but most of phase-forming polymers have high viscidity and form an opaque solution. Recently, ionic liquids (ILs) are gaining attention for their potential use as green solvents and possible replacements for common volatile organic solvents2,3. In this work…     

ZnMoO4/芦荟衍生多孔碳的化学共沉淀法制备及催化性能

通过两步活化和化学共沉淀法分别制备了芦荟衍生多孔碳(aloe-derived porous carbon,APC)、ZnMoO₄和ZnMoO₄/APC催化剂,并研究了3种催化剂作为染料敏化太阳能电池(dye-sensitized solar cells,DSSCs)对电极时在D35/Y123染料和Cu²⁺/Cu⁺体系中的电化学特性和光伏性能。通过场发射扫描电子显微镜(FESEM)、X射线光电子能谱(XPS)和N₂吸附-脱附测试表征了APC、ZnMoO₄和ZnMoO₄/APC的微观结构、化学成分、比表面积和孔结构。结果表明：APC为多孔网络结构,比表面积为1 439m²·g^-1,ZnMoO₄纳米颗粒均匀嵌入或分散在APC表面。ZnMoO₄/APC在D35或Y123染料和Cu²⁺/Cu⁺电解液的DSSC中,分...     

微滴液相微萃取技术用于气相色谱-质谱法分析药品中的酞酸酯和对羟基苯甲酸酯

用微滴液相微萃取(SDME)与气相色谱-离子阱质谱联用测定药品中的酞酸酯和对羟基苯甲酸酯。考察了萃取溶剂的种类及用量、微液滴在样品溶液中的深度、萃取时间及搅拌子的搅拌速度对微滴液相微萃取效果的影响。优化的萃取条件:萃取溶剂为1.5 μL甲苯,微液滴在样品溶液中的深度为0.8 cm,搅拌子的搅拌速度为1000 r/min,萃取时间为20 min。该方法的线性范围为0.032~80 mg/L,检出限为0.6 μg/L~1.28 mg/L,加标回收率为95.85%~148.85%,相对标准偏差为3.9%~14.9%。     

Development of new extraction method based on liquid–liquid–liquid extraction followed by dispersive liquid–liquid microextraction for extraction of three tricyclic antidepressants in plasma samples

In the present study, a new extraction method based on a three–phase system, liquid–liquid–liquid extraction, followed by dispersive liquid–liquid microextraction has been developed and validated for the extraction and preconcentration of three commonly prescribed tricyclic antidepressant drugs – amitriptyline, imipramine, and clomipramine – in human plasma prior to their analysis by gas chromatography–flame ionization detection. The three phases were an aqueous phase (plasma), acetonitrile and n–hexane. The extraction mechanism was based on the different affinities of components of the biological sample (lipids, fatty acids, pharmaceuticals, inorganic ions, etc.) toward each of the phases. This provided high selectivity toward the analytes since most interferences were transferred into n–hexane. In this procedure, a homogeneous solution of the aqueous phase (plasma) and acetonitrile (water–soluble extraction solvent) was broken by adding sodium sulfate (as a phase separating agent) and the analytes were extracted into the fine droplets of the formed acetonitrile. Next, acetonitrile phase was mixed with 1,2–dibromoethane (as a preconcentration solvent at microliter level) and then the microextraction procedure mentioned above was performed for further enrichment of the analytes. Under the optimum extraction conditions, limits of detection and lower limits of quantification for the analytes were obtained in the ranges of 0.001–0.003 and 0.003–0.010 μg mL⁻¹, respectively. The obtained extraction recoveries were in the range of 79–98%. Intra– and inter–day precisions were < 7.5%. The validated method was successfully applied for determination of the selected drugs in human plasma samples obtained from the patients who received them.     

On‐chip electromembrane extraction of acidic drugs

In the present work, a new supported liquid membrane (SLM) has been developed for on‐chip electromembrane extraction of acidic drugs combined with HPLC or CE, providing significantly higher stability than those reported up to date. The target analytes are five widely used non‐steroidal anti‐inflammatory drugs (NSAIDs): ibuprofen (IBU), diclofenac (DIC), naproxen (NAX), ketoprofen (KTP) and salicylic acid (SAL). Two different microchip devices were used, both consisted basically of two poly(methyl methacrylate) (PMMA) plates with individual channels for acceptor and sample solutions, respectively, and a 25 µm thick porous polypropylene membrane impregnated with the organic solvent in between. The SLM consisting of a mixture of 1‐undecanol and 2‐nitrophenyl octyl ether (NPOE) in a ratio 1:3 was found to be the most suitable liquid membrane for the extraction of these acidic drugs under dynamic conditions. It showed a long‐term stability of at least 8 hours, a low system current around 20 µA, and recoveries over 94% for the target analytes. NPOE was included in the SLM to significantly decrease the extraction current compared to pure 1‐undecanol, while the extraction properties was almost unaffected. Moreover, it has been successfully applied to the determination of the target analytes in human urine samples, providing high extraction efficiency.     

Simultaneous determination of acidic and basic drugs using dual hollow fibre electromembrane extraction combined with CE

The simultaneous extraction of acidic and basic drugs from biological samples is a significant challenge for sample preparation. A novel and efficient method named dual hollow fibre electromembrane extraction combined with CE was applied for the simultaneous extraction and preconcentration of acidic and basic drugs in a single step. Under applied potential of 40 V during the extraction, ibuprofen as an acidic drug and thebaine as a basic drug migrated from a 4 mL aqueous sample solution at neutral pH into 20 μL of each basic (pH 12.5) and acidic (pH 2.0) acceptor phase, respectively; 1‐octanol and 2‐nitrophenyl octyl ether were immobilised in the pores of anodic and cathodic hollow fibres as supported liquid membranes, respectively. A Box–Behnken design and the response surface methodology were used for the optimisation of different parameters on the extraction efficiency. Under the optimised conditions, the enrichment factors were between 150 and 170 and also the LODs ranged from 3 to 7 ng/mL in different samples. The method was reproducible so that intra‐ and inter‐day RSDs% (n = 5) were less than 5.9%. Finally, the method was successfully applied for the simultaneous extraction and determination of acidic and basic drugs from plasma and urine samples.     

Hollow fiber liquid phase microextraction as a preconcentration and clean-up step after pressurized hot water extraction for the determination of non-steroidal anti-inflammatory drugs in sewage sludge

A method for the quantitative determination of non-steroidal anti-inflammatory drugs (NSAIDs) in sewage sludge was developed and validated. The target compounds were extracted using pressurized hot water extraction (PHWE) and then purified and preconcentrated by three-phase hollow fiber liquid phase microextraction (HF-LPME) followed by LC–ESI-MS analysis. The PHWE was optimized with regard to the pH of solvent as well as other operational parameters. The optimum conditions were 0.01 M NaOH as the extraction solvent, temperature of 120 °C, pressure of 100 bar, static time 5 min, 5 cycles, flush volume 90% and purge time 60 s. Spike recoveries for sludge samples spiked at 200 ng g⁻¹ were in the range of 101–109% but for the native drugs in non-spiked sludge samples, recoveries were 38.9%, 59.8%, 90.3% and 47.8% for ketoprofen, naproxen, diclofenac and ibuprofen, respectively. Donor phase pH, ionic strength and extraction time were optimized for HF-LPME after PHWE. The optimum conditions were 2 h extraction at pH 1.5 without salt addition. Enrichment factors in the range of 947–1213 times were achieved (extraction recoveries were 23.6–30.3%) for HF-LPME after PHWE. The matrix effect on the ionization of drugs in LC–ESI-MS was also investigated. The results show that there is a smaller matrix effect (−8.9% to +14.6%) in comparison with other published values obtained using solid phase extraction (SPE) for clean-up after pressurized liquid extraction (PLE). Method detection limits (MDLs) and method quantification limits (MQLs) for different drugs were in the range of 0.4–3.7 ng g⁻¹ and 1.5–12.2 ng g⁻¹ in dried sludge samples, respectively. The characteristics of the proposed method were compared with those of other published works. The considerably lower ion suppression/enhancement and minimum use of organic solvents (a few microliters of di-n-hexyl ether) in the sample preparation step are two highlighted advantages of the proposed method in comparison with previously published works. The method was applied to determine NSAIDs in sewage sludge from Källby wastewater treatment plant (Lund, Sweden) in April, June, August and October 2010. The highest concentration level was recorded for ibuprofen in the April sewage sludge sample (588 ng g⁻¹) and all of the selected NSAIDs were detected in all the samples analyzed.     

Analysis and leaching characteristics of mercury and arsenic in Chinese medicinal material

The purpose of this study is to investigate the amounts and characteristics of heavy metals (As, Hg) leachable from several Chinese medicinal materials (CMM) under conditions simulating stomach and intestine digestion and absorption. Analysis by inductively coupled plasma mass spectrometry (ICP-MS) was compared with that by hydride generation atomic fluorescence spectrometry (HG-AFS). Focused microwave assisted extraction (MAE) and Soxhlet extraction were carried out to compare with the conventional sequential extraction method. The CMM studied included two mineral drugs: realgar and cinnabar, and two formulated drugs containing the two minerals. The leachable amounts of the target elements into artificial stomach fluid, artificial intestinal fluid, and artificial intestinal fluid in 0.5% trypsin were compared. The last solvent gave the greatest amounts of leachable As (0.41%) from realgar and Hg (1×10⁻⁴%) from cinnabar, but otherwise no significant effect on the leachable amounts was observed upon changing the following parameters: temperature (37-60 °C), HCl concentration (0.5-6 M), and CMM sample particle size (74 and 250 μm). The low leaching efficiencies observed confirmed the presence of As and Hg as insoluble species (sulfides)in these mineral drugs. Sequential extraction schemes were used to determine the species of mercury and arsenic in formulated drugs containing the minerals. Trace amounts of organic forms of arsenic (0.43%) and mercury (2.9×10⁻⁴%) were observed which could be the transformation products derived from the original cinnabar or realgar minerals in drug formulation.     

pH-resistant titania hybrid organic-inorganic coating for stir bar sorptive extraction of drugs of abuse in urine samples followed by high performance liquid chromatography-ultraviolet visible detection

An organic-inorganic hybrid titania-hydroxy-terminated silicone oil (titania-OH-TSO) stir bar coating was prepared by sol-gel method. The extraction performance of titania-OH-TSO coated stir bar was evaluated and compared with poly(dimethysiloxane) (PDMS), poly(dimethysiloxane)-divinylbenzene (PDMS-DVB), poly(dimethysiloxane)-β-cyclodextrin (PDMS-β-CD) and C(18) coated stir bar with five polar drugs of abuse including amphetamine (PA), methamphetamine (MA), 3,4-methylenedioxyamphetamine (MDA), 3,4-methylenedioxymethamphetamine (MDMA) and ketamine (Ke) as the model analytes. The experimental results revealed that the titania-OH-TSO coated stir bar exhibited highly pH-resistant ability, good preparation reproducibility, superior selectivity and high extraction efficiency for the target compounds. Based on this fact, a new method of titania-OH-TSO coated stir bar sorptive extraction (SBSE) combined with high performance liquid chromatography (HPLC)-ultraviolet visible (UV) detection was developed for the analysis of five drugs of abuse in urine samples. The factors affecting the extraction efficiency of SBSE such as sample pH, desorption solvent, sample volume, extraction time, desorption time, stirring rate and ionic strength were investigated and the optimal extraction conditions were established. Under the optimized conditions, the limits of detection (LODs) for titania-OH-TSO coated SBSE-HPLC-UV determination of five polar drugs of abuse were in the range of 2.3-9.1 μg/L with relative standard deviations (RSDs) ranging from 7.3 to 8.9% (c=300 μg/L, n=6), and all of the target compounds exhibited good linearity over a concentration range of 30-3000 μg/L. The developed method was applied to the determination of amphetamines and Ke in urine samples of drug abusers with satisfactory results.