十二烷基苯磺酸钠-超临界二氧化碳萃取槐花总黄酮的工艺研究

在单因素试验的基础上,以槐花总黄酮提取率为评价指标,进行了L9(34)正交优化实验,考察了表面活性剂十二烷基苯磺酸钠(SDBS)对超临界CO2萃取槐花总黄酮提取率的影响,确定了槐花总黄酮的优化提取工艺.结果表明,引入十二烷基苯磺酸钠使得槐花总黄酮的提取率提高了93.7%.槐花总黄酮的优化提取工艺为:萃取温度50℃,萃取压力35MPa,SDBS质量分数为2%,夹带剂乙醇体积分数75%.     

槐花的研究进展

槐花为豆科植物槐的干燥花及花蕾,主要用于抗炎、止血、抗病毒等作用。就槐花的化学成分、药理作用、有效成分的测定方法和临床应用等多方面进行了综述。     

微波消解-原子吸收光谱法测定槐花和大黄中微量元素

采用微波消解-火焰原子吸收光谱法和石墨炉原子吸收光谱法测定了中药槐花和大黄中铜、铁、锌、镉、铬和铅。研究了槐花和大黄的微波消解试剂和消解条件。在原子吸收光谱测定的最佳条件下测定槐花和大黄中铜、铁、锌、镉、铬和铅。方法的回收率在89．2％～112．0％之间。     

气相色谱法（顶空进样器／质量选择检测器）直接测定电热蚊香片中甲苯

电热蚊香片作为固体样品对其挥发性有机物测定时,预处理步骤较为繁琐。本方法采用顶空进样器(HS)/气相色谱仪(GC)/质量选择检测器(MSD)联机系统能分析所含甲苯,样品无需进行     

固相微萃取-气相色谱-质谱技术分析槐花的挥发性成分

用顶空固相微萃取操作,结合气相色谱-质谱联用技术对槐花挥发性成分进行了鉴定,并用面积归一化法测定其相对含量.共鉴定出化合物31种,包括酮、醇、酸、甾醇、酚、醛、酯、烷烃、烯烃及杂环等10类化合物,其中酮类化合物占总色谱馏出峰面积的21.15%;醇类化合物占13.78%;酸类占9.15%.其主要化合物有:1,9,12三氧-4,6-二氨基环十四烷-5-硫酮(20.58%),棕榈酸(9.05%),9,12,15-十八三烯醇(7.05%),(Z,Z)-9,12-十八碳二烯酸(6.85%),β-谷甾醇(6.11%).该技术可以简便快捷准确地进行槐花挥发性成分的分析鉴定.     

毛细管区带电泳法研究不同炮制方法对槐花、槐米中芦丁和槲皮素含量的影响

建立了一种毛细管区带电泳(CZE)法测定芦丁和槲皮素的方法,利用该方法研究了不同炮制方法对槐花、槐米中芦丁和槲皮素含量的影响。研究了缓冲溶液pH和浓度、分离电压、有机添加剂的浓度和进样时间对分离的影响,在优化条件下,上述两种物质在5 min内实现良好分离。芦丁和槲皮素峰面积和质量浓度分别在0.04~1.8和0.02~2.0 g.L-1浓度范围内呈线性关系,线性相关系数分别为0.999 2和0.999 4,检出限分别为8和5 mg.L-1。试验结果表明,炮制方法影响槐花和槐米中芦丁、槲皮素的含量。     

浓碱溶液中氯离子的痕量测定

我所离子交换膜室成功地应用离子交换膜进行电解制碱,改革了工业上制高纯碱的工艺,革去了汞害。在电解过程中需要测定碱液中所含氯离子,现一般用比色法、比浊法或滴定法来测定,操作比较烦琐,因此我们采用库仑电量法来测定。一级品试剂所含氯离子浓度仅在5微克/毫升以下,故微量卤素自动分析仪的灵敏度必须很高,才能测出痕量级的氯离子浓度。本方法的优点是:(1)一般能连续进行测试(在碱液的情况下因对电解液pH值有中     

催化动力学光度法测定槲皮素——基于溴酸钾氧化乙基橙的褪色反应

槲皮素是一种天然的多羟基黄酮类化合物,广泛分布于银杏叶、槐花米、问荆、紫苑、鱼腥草、柴胡、良姜、老鹤草等天然中草药中.     

蒙药荜茇不同提取物的红外光谱

采用傅里叶变换红外光谱法(FT-IR)并借助于二阶导数谱研究了蒙药荜茇原药材及不同溶剂提取物(采用石油醚,95％乙醇和水)所含化学成分的红外谱图整体变化规律.结果 表明:荜茇石油醚提取物的红外光谱图可见羰基的吸收峰(1722 cm-1)和亚甲基的吸收峰(2927和2855 cm-1)比较强,说明其中所含大量的小分子萜类...     

脂肪酸多聚甘油酯分子结构与性能相关性研究

采用量子化学MM+和AM1方法计算聚甘油和脂肪酸多聚甘油酯的分子结构参数,然后用逐步线性回归方法建立脂肪酸多聚甘油酯HLB值的定量结构性质(QSPR)模型,所得的预测模型中包含四个参数(单位质量分子所含氧原子数Xo、生成热ΔfHm、电子能Ee和水合能Eh),预测值及外部检验的复相关系数(R2)和标准偏差(SD)分别为0.9553、0.73722和0.9678、6.34426。结果表明,量子化学方法计算简单,对脂肪酸多聚甘油酯结构的表征能力较强,所建QSPR模型具有能较好的预测能力和较强的稳健性,并在一定程度上阐明了脂肪酸多聚甘油酯分子结构与性能之间的关系。     

Microwave-assisted Extraction of Rutin and Quercetin from Flos Sophorae

Three microwave-assisted extraction(MAE) procedures were studied. The first procedure was household microwave oven dynamic extraction(HMODE). The second procedure was special microwave oven bath extraction (SMOBE). The third procedure was microwave resonant cavity dynamic extraction (MRCDE). The results obtained by the three microwave-assisted extraction procedures were compared with those obtained by using traditional Soxhlet extraction. The results indicate that the MAE not only took a shorter time, but also simplified the procedure, and made the extraction a higher yield. At the same time the results obtained by the three MAE procedures were also compared with each other.     

Application of microwave heating for the fast extraction of fat content from the poultry feeds

A rapid method has been developed to extract and quantitatively measure the total oil content in poultry feeds using a domestic microwave oven. The optimized extraction procedure involves the replicate (6×) extraction of 5 g of ground feed with 12 ml of hexane for 20 s in a 900 W oven. Each replicate involves the collection of the resulting miscella and its replacement with fresh solvent for re-extraction. The collected extracts were centrifuged and transferred to a vial. The solvent was evaporated to a constant weight and the residual lipid weighed. In comparison to conventional Soxhlet extraction method, lipid contents obtained using the optimized microwave procedure was not significantly different. However, FTIR analysis indicated that the microwave procedure was superior in minimizing the formation of free fatty acids (FFA) relative to the Soxhlet procedure if the temperature of the sample was kept within the range of 45–50 °C. This simple, sequential extraction procedure is rapid, highly efficient and provides a simple mean of quantitating the lipid content of poultry feed in less than 40 min without the need for specialized microwave oven.     

Extraction of pesticides from sediments using a microwave technique

Summary The microwave energy produced by high intensity microwave oven, was used to extract pesticides from sediment samples. This system was compared with Soxhlet, sonification and convection heat extraction techniques. Sediment moisture and type of organic matter content are critical parameters in affecting the degree of recovery. Extraction procedure using a 30 second period repeated in sequence 5 times provided generally better recovery values than did 8 hours of Soxhlet extraction.     

Extraction and Quantitation of Polyolefin Additives

Abstract

The extraction and subsequent separation and quantitation of polymer additives in polyolefins has proven to be a challenge for the analytical chemist. There have been several workers over the years who have investigated the separation of additives in polyolefins (1–7), but the extraction and recovery (at > 90%) in reasonable times has been most difficult. the Soxhlet extraction technique has been used for many years, but suffers in that it takes over twelve hours to extract most of the additives used in polyolefin formulations. Some workers have used the ultrasonic bath (7), but not very much work has been done with the microwave oven. We have investigated some ways to extract the additives from polyolefins, namely, microphye oven and ultrasonic bath techniques for high density polyethylene (HDPE), low density polyethylene (LDPE), and polypropylene. We have concentrated on identifying and quantitating recoveries for typical polyolefin

antioxidants, 20 such as Irganox 1010, Irgafors 68, and Cyasorb UV 531. the extraction times are typically 20 minutes for the microwave oven and 30–60 minutes for the ultrasonic bath with 90+% recoveries being obtained. Both normal phase isocratic (used when phosphites are present) and reverse phase gradient LC techniques are discussed. We have also extracted the slip agent, erucamide, from LDPE, using reverse phase, at 200nm.     

一种新型微波辅助萃取法用于中药刺五加中总黄酮萃取的研究

微波萃取法是目前世界上公认的绿色样品预处理技术之一 .它在环境、生化、食品、工业以及天然产物和中药等领域均有广泛的应用 [1～ 4 ] .目前 ,最常用的微波萃取系统有两种 [5] ,一种是使用多模式微波炉 ,在密闭容器中加热样品及有机溶剂 ,将目的组分从样品基体中萃取出来 .由于在密闭容器中 ,被萃取样品和溶剂处于高压下 ,温度很高 ,使待萃取物的溶解度增大 ,可获得更高的萃取率 .同时 ,用于这种微波萃取的系统一般可同时容纳 9～ 1 2个萃取罐 ,使试样的批量处理能力大大提高 .该法最主要的缺点是萃取后的液体一般需经离心分离或微孔玻璃…     

Microwave-Assisted Solvent Extraction of Melamine from Seafood and Determination by Gas Chromatography–Mass Spectrometry: Optimization by Factorial Design

Melamine attracts considerable attention because of its toxicity. The determination of melamine in seafood was performed by gas-chromatography–mass spectrometry, using an optimized version of a method adopted by the U.S. Food and Drug Administration. The melamine was extracted by closed-vessel microwave-assisted solvent extraction (MAE), as a valid alternative in sample preparation, to reduce analysis time and provide less ambiguous data. The procedure was optimized by means of experimental factorial design considering the three main variables that affect this process: microwave oven power, the maximum temperature inside the extraction tube, and the hold time. The recovery of melamine in spiked samples was used as the elemental response value of the design. Temperature and hold time had a more positive effect on the response than the microwave power. A significant positive interaction was observed between oven power and hold time. A temperature of 70°C and a hold time of 1 min gave a recovery of 92 ± 5% for a microwave power of 600 W. Under these conditions, the total microwave extraction time was approximately 2 minutes, a much shorter time compared to the ultrasonic bath, which required a total time of 40 min. The repeatability of the method was approximately 3%. The limits of quantification were 0.55 mg kg^?1 for MAE and 1.9 mg kg^?1 for the ultrasonic bath; the linearity was confirmed up to 10 mg kg^?1. In conclusion, the MAE procedure was shown to be an excellent alternative to the official method.     

Ultrasound-assisted pressurized solvent extraction for aliphatic and polycyclic aromatic hydrocarbons from soils

In the present work the efficiency of extraction of aliphatic diesel range organics (DROs) and polycyclic aromatic hydrocarbons (PAHs) from soil was assessed by using dynamic modes of pressurized solvent extraction (PSE), and ultrasound-assisted pressurized solvent extraction (US-PSE). Optimization studies were carried out using a blank soil (Non-Polluted Soil#1, CLN-1, RTC) and a real soil which was previously spiked with the analyte mixture and aged for 90 days. A laboratory-made manifold with controlled temperature and pressure was used to carry out the leaching processes. The extraction cell was inserted into an oven for PSE and into an ultrasound bath for US-PSE. The following variables were studied in each case, keeping the pressure at about 1800 psi: extraction temperature, time of static and dynamic extraction and solvent flow rate. In addition, the time of ultrasound application was also studied in US-PSE. For PSE with dichloromethane (DCM) the recoveries were about 90-95% for both the families of analytes, using extraction times of 20 min. Analyte extraction was quantitative by using US-PSE with DCM for 10 min. In all cases, after the extraction process, the analytes were determined by GC-MS. Application of the method to a natural contaminated sample suggests that either the extraction time used in US-PSE should be increased to 20 min or the solvent (DCM) should be replaced by a mixture of DCM:acetone (1:1), to reach comparability with Soxhlet extraction.     

中药刺五加叶中有效成分的几种微波辅助提取方法研究

利用高压微波提取法、常压回流微波提取法、流动微波提取法和索氏提取法提取中药刺五加中黄酮和皂苷类化合物,考察各种提取方法提取效率随时间的变化。结果表明,高压微波提取法在压力为300kPa,完全提取的时间为10min;常压回流微波提取法完全提取的时间为14min;流动微波提取法完全提取的时间为10min;索氏提取法需8h尚能完成。各种提取方法总黄酮的提取率分别为43．7、48．2、42．7和34．7mg／g;总皂苷的提取效率分别为60．2、61．5、59．8和46．5mg/g。与索氏提取法比较,微波提取法提取黄酮和皂苷,提取时间大大缩短,且提取效率显著提高。     

Multi-residue determination of organochlorine pesticides in vegetables in Kirklareli,Turkey by gas chromatography–mass spectrometry

The aim of this study was to investigate the level of organochlorine pesticides use for treatment of tomatoes, eggplants and cucumbers in Kirklareli, Turkey. Eighteen organochlorine pesticides were identified in vegetable samples using microwave or Soxhlet extraction, and results were obtained by gas chromatography–mass spectrometry. The optimized conditions were 1 mL/min for flow rate in the mobile phase, 1 μL for injection volume and 70 V for fragmentation potential. The analytical parameters show that the microwave oven extraction procedure provided the best results when compared to the Soxhlet extraction procedure. Samples were prepared for analysis with hexane?dichlormethane (1: 1, v/v, 40 mL) using a solid-phase extraction method. The limits of detection and quantitation for the eighteen analytes were between 0.02–0.26 and 0.06–0.87 μg/L, respectively, and the relative standard deviations of the migration time ranged from 2.4 to 8.9%. The recoveries of surrogate spiked in vegetable samples ranged from 70 to 116%, respectively. The obtained concentrations of pesticides in all vegetables studied were proved in the range of ND–123 μg/kg. The organochlorine pesticide sum was below the legal limit, except for Endrin and Methoxychlor, which requires a further elucidation of the organochlorine pesticides pollution sources in the region. These studies on accumulation of organochlorine pesticides were necessary for accomplishing a comprehensive ecological risk assessment.     

Determination of the oil content of seeds by focused microwave-assisted soxhlet extraction

Sumamry Soybean, rape and sunflower lipids have been extracted with a focused microwave-assisted Saxhlet extractor. The main factors affecting extraction efficiency, namely microwave irradiation power, number of cycles and microwave irradiation time were optimised by means of a power, number of cycles and microwave irradiation time were optimised by means of a central composite design based on a two-level-three-factor factorial design. A study of the influence of particle size on the extraction procedure was also performed. The results obtained were compared with those obtained by use of an ISO method using a conventional Soxhlet extractor. Quantitative results for lipid content based on gravimetric determinations and qualitative results based on analysis of fatty acid methyl esters and polymeric compounds were similar to those obtained by Soxhlet extraction with hexane. Substantial reduction of sample manipulation. analysis time and solvent wastage is achieved by use of the proposed method.