大体积进样不分流气-质联用测定二噁英

利用大体积进样技术结合气相色谱-质谱仪器,对二噁英的测定效果进行了研究．对进样量1,5,10,25,50μL和100μL的色谱图进行了分析,同时与传统分流／不分流进样技术进行了对比．对比和研究表明：使用大体积进样方式完全可以代替传统分流／不分流进样技术,并且不影响色谱分离度,又可以大幅度提高仪器分析的灵敏度．     

大体积进样技术在环境分析中的应用

在毛细管气相色谱法(CGC)中,采用大体积进样技术(LVI),即使用能够容纳大体积样品的进样装置以及增加可控时间的溶剂蒸汽放空装置,可以满足环境样品中超痕量组分的分析要求,简化样品浓缩步骤以及实现液相色谱(LC)与CGC的在线联用。针对分析物的性质、毛细管柱的规格和分析的目的已发展了多种LVI。本文总结了几种常见的LVI,包括柱头进样(OCI)和程序升温进样(PTV),以及近年来发展的一些新技术,如在柱同时溶剂浓缩进样、样品直接引入进样/复杂基质进样和同时溶剂冷凝无分流进样,阐述了各种进样技术的基本原理及其与样品提取、LC纯化在线联用的方法在环境分析应用中的一些最新研究进展。     

一种微流控芯片中大体积进样方法及专用芯片

本发明涉及微流控芯片系统的进样方法。在使用固定相的微流控芯片系统中,于芯片分离通道与流动相人口之间设置两个或两个以上的分流通道。通过控制其中流体的切换和截止,实现对微流控芯片系统的大体积进样。该方法适合于微流控芯片中电色谱、加压电色谱和液相色谱模式下的大体积进样。该方法的优点为：可实现微流控芯片中大体积样品的上样;克服了系统中的梯度延迟效应,     

离子色谱法同时测定饮用水中5种消毒剂副产物

建立了离子色谱电导检测大体积进样同时测定饮用水中5种消毒剂副产物(亚氯酸盐、溴酸盐、氯酸盐、二氯乙酸和三氯乙酸)的方法.选用大容量IonPac AS19阴离子交换分析柱,以KOH溶液梯度淋洗,流速为1.0 mL/min,可在33 min内一次进样同时分析上述5种消毒剂副产物和7种常见阴离子.亚氯酸盐、溴酸盐、氯酸盐、二氯乙酸和三氯乙酸的检出限分别为0.43、0.68、0.78、1.04和1.53μg/L(500 μL进样),线性相关系数r＞0.9995.运用该法测定了自来水中5种消毒剂副产物,并对样品加标回收,回收率在97.6%～105.6%之间.对影响分离和测定的因素,如温度、共存非测定离子、相邻离子间等进行了研究.     

微流量液相色谱在线大体积进样的方法和专用装置

本发明涉及微分离系统的进样方法,具体地说是一种微流量液相色谱在线大体积进样的方法和专用装置。在微流量液相色谱分离系统的流路中,添加多流路分流切换装置,使得系统在进样和分离时,流动相可以从不同流路分流。样品利用在固定相上的保留,实现色谱系统的大体积进样。     

基于大体积循环进样的低丰度蛋白质富集

发展了一种大体积循环进样方法,用于富集低丰度蛋白质。在优化的色谱分离条件下,通过增加蛋白质样品的上样体积提高低丰度蛋白质的绝对含量;进一步采用增加样品进样循环次数的方法提高蛋白质的富集效率。以猪肝提取蛋白质为样品,每次上样量500 μL的大体积11次循环进样。根据色谱峰的信号强弱,选择了在原始谱图中看不到色谱峰、有较少小峰和有较多小峰出现的时间段等有代表性的馏分进行研究。在中等极性的组分中,保留时间为11.38 min和12.58 min组分的富集效率分别提高了52倍和61倍,实验结果与理论富集效率相近。所发展的方法为生物蛋白质样品研究提供了一种新的富集制备及检测方法。     

变径毛细管柱GC／FTIR联用技术的研究

本文介绍了使用新型变径毛细管柱的气相色谱/傅里叶变换红外光谱联用技术(GC/FTIR)。以正构烷烃的混合物为样品,研究了载气速流、色谱进样量及柱后死体积对联用效果的影响。分别在变径毛细管柱GC/FTIR和普通毛细管柱GC/FTIR联用系统上分析了烷烃芳烃混合物和合成汽油样品,并利用软件系统提供的程序和红外标准谱库对所得光谱进行了检索。实验结果表明,变径毛细管柱GC/FTIR系统具有色谱进样量大,可鉴定组分多,分离能力强和检测灵敏度高等显著优点。     

通过柱切换技术与高效液相色谱联用的限进性柱对盐酸贝那普利的在线富集性能

以自制的限进性填料柱为预处理富集柱,Luna C₁₈柱为分析柱,通过柱切换技术将限进性填料柱与高效液相色谱联用(RAM-HPLC),研究了盐酸贝那普利的在线富集效果。考察了进样体积与峰面积、系统总压力的关系,以及常规进样与大体积进样的差别。当进样体积在100 μL以内时,峰面积随进样体积的增加而增加;当进样体积大于80 μL时,系统总压力变化明显。考虑对整个系统的保护,选择80 μL作为最大进样体积。同一浓度的样品进样20 μL与进样80 μL所得峰面积之间的线性关系良好。RAM柱对盐酸贝那普利具有良好的富集作用,能够有效提高HPLC的灵敏度,而且具有简单、经济的特点。     

在线中和富集及标准加入离子色谱法测定大气吸收液中的痕量阴离子

建立了大体积进样后的在线中和富集及在线标准加入离子色谱法,实现了对大气碱性吸收液中痕量氯离子、亚硝酸根、硝酸根、硫酸根的直接测定。比较了不同阀切换时间窗及在线中和柱的选择,确定了最佳的实验条件。利用戴安公司“谱睿”在线中和技术,通过Inguard H在线中和柱和CRD 200在线二氧化碳去除装置的共同作用,有效地去除了碱性吸收液中的OH~和CO2~3,使测定干扰降低到最小;通过大体积进样和在线富集,改进了样品的检出限,Cl~, NO~2, NO~3和SO2~4的检出限分别为17.5、171、34.7和42.4 ng/L;在线标准加入解决了痕量阴离子标准溶液的配制难题及NO~2低回收率对检测结果的影响。本方法实现了自动化分析,结果准确,重复性好,检测效率高,可用于常规离子色谱条件下无法测定的强碱性基体样品中痕量阴离子的准确测定。     

小体积外循环进样ICP-AES直接测定薄膜样品成份

本文试用小体积外循环进样系统,不称样重、不计试液体积,用归一计算法(或摩尔比法)ICP-AES直接进行小试样样品的成份测定,方法简便、快速,分析结果满意。     

Critical aspects of the determination of pentafluorobenzyl derivatives of aldehydes by gas chromatography with electron-capture or mass spectrometric detection: Validation of an optimized strategy for the determination of oxygen-related odor-active aldehydes in wine

This work presents a thorough study of some aspects critical to the quantitative performance of methods for the determination of volatile aldehydes previously derivatized to pentafluorobenzyl hydroxylamine oximes. The conclusions of the study are further applied to the validation of an optimized procedure for the determination of oxidation-related aldehydes from wine. Aspects studied include the chromatographic injection, the analytical performance of electron-capture detection (ECD) or MS detection, and the way in which the derivatization is carried out. Different injection techniques have been optimized and compared (classical splitless-hot injection; cold splitless; and large volume solvent split injection). All of them were carried out in a programmed temperature vaporization (PTV) injector, with a 350 microL internal volume liner (3.4 mm internal diameter). Classical splitless injection of hexane extracts is troublesome and requires large carrier gas flows (>10 mL min(-1)). Cold splitless injection was clearly superior. Large volume solvent split injection has been also optimized. ECD has been found to lack the necessary selectivity for the determination of unsaturated aldehydes in wine, although the quantitation of several minor aldehydes is possible. MS detection has proven to be superior for the determination of these compounds in wine. The way in which the reagent is applied is also critical and for the case of wine is important to ensure that the reagent is applied after some of the major wine aldehydes have been eliminated. The finally proposed method is extremely sensitive. Method detection limits ranged from 0.002 microg L(-1) (for unsaturated aldehydes) to 0.73 microg L(-1) (for phenylacetaldehyde) and precision (measured as relative standard deviation) is < or =6% in all cases. The method makes it possible to determine quantitatively in a single run the wine aldehydes with sensory significance (isobutyraldehyde, 2-methylbutanal, isovaleraldehyde, (E)-2-hexenal, (E)-2-heptenal, (E)-2-octenal, (E)-2-nonenal, methional and phenylacetaldehyde).     

Application of a novel large-volume injection method using a stomach-shaped inlet liner in capillary gas chromatographic trace analysis of dioxins in human milk and plasma.

A newly developed large-volume injection (LVI) technique that employs a unique stomach-shaped inlet liner (SSIL) inside of a programmable temperature vaporizer was used for the determination of trace amounts of dioxins in human milk and plasma. The initial temperature and the initial dwelling time of the inlet and the kind of solvent used were found to be critical in determining the analytical sensitivity of dioxins due to the loss of these relatively volatile compounds during solvent vaporization. Human milk and plasma were purified and fractionated by pre-packed multi-layered silica-gel chromatography and activated carbon silica-gel column chromatography. A 20-microL aliquot of the fraction collected from the chromatography with toluene was directly applied to the LVI system in high-resolution gas chromatography/high-resolution mass spectrometry. Excellent correlation (r > 0.97) between the values obtained by the LVI method using the SSIL device and those by the conventional regular-volume splitless injection method was obtained for PCDDs, PCDFs and non-ortho PCBs in human milk and plasma samples.     

Large volume injection techniques in capillary gas chromatography

Large volume injection (LVI) is a prerequisite of modern gas chromatographic (GC) analysis, especially when trace sample components have to be determined at very low concentration levels. Injection of larger than usual sample volumes increases sensitivity and/or reduces (or even eliminates) the need for extract concentration steps. Also, an LVI technique can serve as an interface for on-line connection of GC with a sample preparation step or with liquid chromatography. This article reviews the currently available LVI techniques, including basic approaches to their optimization and important real-world applications. The most common LVI methods are on-column and programmed temperature vaporization (PTV) in solvent split mode. Newer techniques discussed in this article include direct sample introduction (DSI), splitless overflow, at-column, and "through oven transfer adsorption desorption" (TOTAD).     

The Use of Non-Splitting Injection Techniques for Trace Analysis in Narrow-Bore Capillary Gas Chromatography

The use of hot splitless, cold splitless, and on-column injections for trace analysis in narrow-bore capillary GC is evaluated. Despite the low flow rates for the columns used, the required splitless times for splitless injections can be surprisingly short if liners with a small inside diameter are used. On-column injection can be applied by using an appropriate normal-bore precolumn coupled to the narrow-bore analytical column using a specially designed low dead volume column connector. The effects of the experimental conditions such as sample volume, injection temperature, and initial oven temperature on peak focusing and the discrimination and degradation behavior of the analytes are discussed. The possibilities to obtain sensitive and fast separations are illustrated by various applications.     

Optimization of large volume injection-programmable temperature vaporization-gas chromatography-mass spectrometry analysis for the determination of estrogenic compounds in environmental samples

Large volume injection-programmable temperature vaporization-gas chromatography-mass spectrometry (LVI-PTV-GC-MS) was optimized for the determination of estrone (E1), 17β-estradiol (E2), 17α-ethynyl estradiol (EE2), mestranol (MeEE2) and estriol (E3) for their determination in environmental samples (estuarine water, wastewater, fish bile and fish homogenate) after derivatization with 25 μL (BSTFA+1% TMCS) and 125 μL of pyridine. Experimental designs such as Plackett-Burman (PBD) and central composite designs (CCDs) were used to optimize the LVI-PTV variables (cryo-focusing temperature, vent time, vent flow, vent pressure, injection volume, purge flow to split vent, splitless time and injection speed). Optimized conditions were as follows: 45 μL of n-hexane extract are injected at 60°C and 6 μL/s with a vent flow and a vent pressure of 50 mL/min and 7.7 psi, respectively, during 5 min; then the split valve is closed for 1.5 min and afterwards the injector is cleaned at 100 mL/min before the next injection. The method was applied to the determination of estrogenic compounds in environmental samples such as estuarine water, wastewater, and fish homogenate and bile. Limits of detection (0.04-0.15 ng/L for water samples, 0.04-0.67 ng/g for fish bile and 0.1-7.5 ng for fish homogenate) obtained were approx. ten times lower than those obtained by means of a common split/splitless inlet.     

GC analysis of trichloroacetic acid in water samples by large-volume injection and thermal decarboxylation in a programmed-temperature vaporizer

Summary AGC method has been developed for the analysis of tricholoroacetic acid (TCA) in water samples. It entails large-volume injection (LVI) and programmed-temperature vaporization (PTV) of water samples, thermal decarboxylation of TCA to chloroform in the injector, and GC-ECD analysis of the decarboxylation product. Conditions such as final injector temperature, splitless time, and injection volume were optimized. The limit of detection is approximately 0.1 μg L⁻¹ Several real samples were analyzed. The method presented is an easy means of determination of TCA and eliminates sample-preparation steps such as extraction and derivatization.     

Large volume injection of water in gas chromatography–mass spectrometry using the Through Oven Transfer Adsorption Desorption interface: Application to multiresidue analysis of pesticides

In the present work, the potential of the Through Oven Transfer Adsorption Desorption (TOTAD) interface for the large volume injection (LVI) of aqueous samples in gas chromatography (GC) using a mass spectrometry (MS) detector is demonstrated. To this end, a new method for the determination of pesticides in water is presented, being the first developed method in which injection of large amounts of polar solvents using the TOTAD interface and an MS detector are combined, is applied to the determination of pesticides in water. Water samples, as large as 5 ml, were directly injected into a capillary GC. No sample pre-treatment step other than simple filtration was needed. The TOTAD interface allows the introduction of several millilitres of water, while maintaining good chromatographic characteristics. The water is almost entirely eliminated, so that LVI of aqueous samples and an MS detector can be used without problems. Organophosphorus, organochlorine, and triazine pesticides were determined in one run. Calibration curves were linear in the range tested and the sensitivity achieved injecting 5 ml of water sample was sufficient for most of the target pesticides but not for all of them. Sensitivity of the analysis can be improved by increasing the sample volume. No variability was observed in the retention times and relative standard deviations from absolute peak areas were good, considering that they corresponded to the overall analysis. The method was applied to the analysis of pesticide residues in real water samples.     

Determination of polychlorinated dibenzo‐p‐dioxins and polychlorinated dibenzofurans,and dioxin‐like polychlorinated biphenyls in human serum using programmable‐temperature vaporization gas chromatography with high‐resolution mass spectrometry

The determination of polychlorinated dibenzo‐p‐dioxins and polychlorinated dibenzofurans, and dioxin‐like polychlorinated biphenyls in blood from a non‐occupational population is essential for the investigation of adverse health effects from these pollutants. In this study, a sensitive method based on programmable‐temperature vaporization with large‐volume injection coupled with gas chromatography with high‐resolution mass spectrometry was developed to determine these pollutants in 1–2 mL of human serum samples. Various key parameters of programmable‐temperature vaporization injector, including vent temperature, vent time, vent flow, transfer temperature and transfer time were optimized by factorial design. The accuracy and precision as well as applicability were assessed by determining polychlorinated dibenzo‐p‐dioxins, polychlorinated dibenzofurans, and dioxin‐like polychlorinated biphenyls in calibration standard solutions, standard reference materials and real human serum samples from non‐occupational population. The method detection limits of polychlorinated dibenzo‐p‐dioxins and polychlorinated dibenzofurans, and dioxin‐like polychlorinated biphenyls were 1.5–9.0 and 0.005–0.02 ng/kg wet weight, respectively. By comparing with typically splitless injection, the application of programmable‐temperature vaporization injector could effectively lead to higher detectable rate of polychlorinated dibenzo‐p‐dioxins and polychlorinated dibenzofurans, and dioxin‐like polychlorinated biphenyls in 1–2 mL of human serum samples.