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Evaluation of sulfonylurea herbicides using high resolution electrospray ionization ion mobility quadrupole mass spectrometry 高分辨率电喷雾离子迁移率四极杆质谱法评价磺酰脲类除草剂
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10010
B. Clowers, W. Steiner, Heather M. Dion, L. Matz, M. Tam, E. Tarver, H. Hill
The purpose of the current study was to explore and assess the potential of high resolution electrospray ionization atmospheric pressure ion mobility spectrometry (ESI–AP-IMS) as a field analytical method for the detection and identification of mixtures of sulfonylurea (SU) herbicides in aqueous samples. Because of increased usage, persistent behavior, and potential for crop damage, an environmental method of analysis capable of evaluating SU herbicides in a swift and effective manner is necessary. Eight SU herbicides were evaluated using ESI–AP-IMS quadrupole mass spectrometry. The selected herbicides were chosen based upon availability and scope of use. The SU herbicide species were qualitatively identified using quadrupole mass spectrometry, followed by the determination of reduced mobility values for characteristic ions. Various mixtures of rimsulfuron, metsulfuron-methyl, prosulfuron, sulfometuron-methyl, tribenuron-methyl, and primisulfuron-methyl could be revealed using AP-IMS. The ease of use, ability to operate under ambient conditions, and relatively rapid data acquisition times make ESI–AP-IMS an attractive candidate for the analysis of aqueous environmental field samples. © 2002 Wiley Periodicals, Inc. Field Analyt Chem Technol 5: 302–312, 2001; DOI 10.1002/fact.10010
本研究的目的是探索和评估高分辨率电喷雾电离大气压离子迁移谱法(ESI-AP-IMS)作为一种现场分析方法检测和鉴定水样中磺酰脲(SU)除草剂混合物的潜力。由于单硫除草剂的使用量增加、持续使用和潜在的作物危害,需要一种能够快速有效地评价单硫除草剂的环境分析方法。采用ESI-AP-IMS四极杆质谱法对8种SU除草剂进行了评价。所选择的除草剂是根据可用性和使用范围来选择的。采用四极杆质谱法对SU除草剂进行了定性鉴定,并测定了特征离子的迁移率降低值。在AP-IMS中可以发现各种环磺隆、甲磺隆、甲磺隆、甲基磺磺隆、甲基三苯脲和甲基原磺隆的混合物。易于使用,能够在环境条件下操作,以及相对快速的数据采集时间使ESI-AP-IMS成为水环境现场样品分析的有吸引力的候选者。©2002 Wiley期刊公司化学工程学报(英文版);2009;DOI 10.1002 / fact.10010
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引用次数: 18
Development and evaluation of a low thermal mass gas chromatograph for rapid forensic GC–MS analyses 用于快速法医GC-MS分析的低热质气相色谱仪的研制与评价
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10011
K. Sloan, R. Mustacich, B. Eckenrode
Field as well as laboratory gas chromatography–mass spectrometry (GC–MS) systems are limited in several ways. Laboratory systems with air circulation ovens are bulky, power inefficient, and have a narrow range of temperature programming rates. Commercial field-portable GC–MS systems are too heavy, and many are limited to isothermal column temperature control. A resistively heated low thermal mass (LTM) GC system has been developed that can overcome most of these limitations, offering laboratory-level performance, or better, in a small, lightweight package. A prototype LTM GC was developed and evaluated in parallel with a commercial laboratory GC–MS used as a benchmark. A series of hydrocarbons, a Grob mixture, and a drug mixture critical pair of cocaine and nortriptyline were analyzed under different chromatographic conditions, and the performance of both systems was compared in terms of speed, efficiency, temperature control, resolution, precision, and power demand. The LTM GC was found to provide performance that was equivalent to the lab-based commercial GC when conventional temperature ramp rates were used (up to 30°C/min). The LTM GC provided additional advantages over the conventional GC system in terms of positive or negative temperature ramping rates and range, cool-down time reduction, and lower power requirements (1–5 W/m). This new GC system demonstrated a capability for a wider range of linear temperature programming rates providing analysts flexibility when performing established forensic methods. Method development and implementation of the LTM GC was successful in demonstrating GC analyses that are controllable, reproducible, and fieldable. © 2002 Wiley Periodicals, Inc.* Field Analyt Chem Technol 5: 288–301, 2001; DOI 10.1002/fact.10011
现场和实验室气相色谱-质谱(GC-MS)系统在几个方面受到限制。带有空气循环炉的实验室系统体积大,功率低,并且温度编程速率范围窄。商业现场便携式气相色谱-质谱系统太重,许多仅限于等温柱温度控制。一种电阻加热的低热质量(LTM)气相色谱系统已经开发出来,它可以克服大多数这些限制,在一个小而轻的封装中提供实验室级的性能,甚至更好。开发了一个原型LTM气相色谱,并与作为基准的商业实验室气相色谱-质谱同时进行评估。在不同的色谱条件下,分析了一系列烃类、Grob混合物和可卡因和去甲替林临界混合物,并比较了两种色谱系统在速度、效率、温度控制、分辨率、精度和功率需求方面的性能。当使用常规的温度斜坡速率(高达30°C/min)时,LTM气相色谱的性能与基于实验室的商用气相色谱相当。与传统GC系统相比,LTM GC在正负温度上升速率和范围、缩短冷却时间和降低功耗要求(1-5 W/m)方面具有额外的优势。这种新的GC系统展示了更大范围的线性温度编程速率的能力,为分析人员在执行既定法医方法时提供了灵活性。LTM气相色谱的方法开发和实现成功地证明了气相色谱分析是可控的、可重复的和可现场的。©2002 Wiley journals, Inc.* Field analyst Chem technology (5): 288-301, 2001;DOI 10.1002 / fact.10011
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引用次数: 45
Continuous Bioaerosol Monitoring Using UV Excitation Fluorescence: Outdoor Test Results 使用紫外激发荧光连续监测生物气溶胶:室外测试结果
Pub Date : 2001-01-01 DOI: 10.1002/FACT.1022
J. Eversole, W. Cary, C. Scotto, R. Pierson, M. Spence, A. Campillo
This report describes procedures and results of recent outdoor tests in evaluating a prototype sin- gle particle fluorescence analyzer (SPFA), an instrument that is being developed to simultaneously monitor am- bient concentrations of both biological and nonbiologi- cal aerosols using optical techniques. Recent modifica- tions to the SPFA are also noted and discussed. During recent outdoor tests, aerosols were generated contain- ing four different types of biological material: ova albu- min, MS-2 phage, Erwinia herbicola vegetative cells and Bacillus subtilis spores. Analysis of the SPFA results in- dicates that a probability of detection of at least 87% was achieved for target aerosol concentrations as low as a few (1-5) particles/liter. Moreover, comparison with dif- ferent reference instruments indicate that the SPFA can achieve absolute quantitative detection efficiencies for individual biological aerosols of at least 70% (assuming appropriate alignment and threshold settings are made). During some of the outdoor tests different nonbiological aerosols were also released that generally did not gener- ate any significant fluorescent signals. Although official test scores have not yet been distributed, we provide here the SPFA results for each of the aerosol releases made during the test. Analysis of the relative fluorescent inten- sities in the visible and UV spectral bands suggests that these data can be used in the future to provide an indi- cation of the type of biological aerosol being released as well. C c ∞ 2001 John Wiley & Sons, Inc.⁄This article is a US Government work and, as such, is in the public domain in the United States of America. and monitor human pathogens or other hazardous biological materials as aerosols. Our research project has focused on using optical techniques to sample and monitor ambient air on a continuous basis, in order to provide essentially a real-time analysis of the biological aerosol concentration.
本报告描述了最近评估单粒子荧光分析仪(SPFA)原型的室外测试的程序和结果,SPFA是一种正在开发的仪器,用于同时监测生物和非生物气溶胶的浓度,使用光学技术。最近对SPFA的修改也被记录和讨论。在最近的室外试验中,产生的气溶胶含有四种不同类型的生物材料:卵白蛋白、MS-2噬菌体、厄尔温菌除草剂营养细胞和枯草芽孢杆菌孢子。对SPFA结果的分析表明,对于目标气溶胶浓度低至几(1-5)个颗粒/升,检测概率至少达到87%。此外,与不同参考仪器的比较表明,SPFA对单个生物气溶胶的绝对定量检测效率至少为70%(假设进行了适当的校准和阈值设置)。在一些室外测试中,还释放了不同的非生物气溶胶,通常不会产生任何显著的荧光信号。虽然官方测试成绩尚未发布,但我们在这里提供了测试期间每个气溶胶释放的SPFA结果。对可见光和紫外光谱波段的相对荧光强度的分析表明,这些数据将来也可以用来指示释放的生物气溶胶的类型。C C∞2001 John Wiley & Sons, Inc. /本文为美国政府作品,因此在美利坚合众国属于公有领域。并监测人类病原体或气溶胶等其他有害生物材料。我们的研究项目集中在使用光学技术对环境空气进行连续采样和监测,以便提供生物气溶胶浓度的实时分析。
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引用次数: 71
Biological agent detection and identification by the Block II Chemical Biological Mass Spectrometer 使用Block II化学生物质谱仪对生物制剂进行检测和鉴定
Pub Date : 2001-01-01 DOI: 10.1002/FACT.1019
W. Griest, M. Wise, K. J. Hart, S. A. Lammert, C. V. Thompson, A. Vass
The Block II Chemical Biological Mass Spectrometer (CBMS) detects and identifies both chemical and biological warfare agents. Biodetection is based upon respirable particle collection by an opposed-jet virtual impactor, liberation of derivatized biomarkers by thermolysis-methylation and their analysis by direct-sampling ion trap mass spectrometry in the full-scan chemical ionization mode. Results from laboratory and field trials demonstrate the capability of the Block II CBMS for biodetection and identification. © 2001 John Wiley & Sons, Inc.Field Analyt Chem Technol 5: 177–184, 2001
Block II化学生物质谱仪(CBMS)检测和识别化学和生物战剂。生物检测的基础是通过反向喷射虚拟撞击器收集可吸入颗粒,通过热裂解甲基化释放衍生生物标志物,并在全扫描化学电离模式下通过直接采样离子阱质谱法进行分析。实验室和现场试验的结果表明,Block II CBMS具有生物检测和鉴定的能力。©2001 John Wiley & Sons, Inc.Field analyst Chem technology 5: 177-184, 2001
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引用次数: 28
Multivariate data analysis of fluorescence signals from biological aerosols 生物气溶胶荧光信号的多变量数据分析
Pub Date : 2001-01-01 DOI: 10.1002/FACT.1018
T. Tjärnhage, Maria Strömqvist, G. Olofsson, D. Squirrell, James Burke, J. Ho, M. Spence
This paper describes the use of multivariate data analysis of multiwavelength fluorescence measurements of biological aerosols collected by an air to liquid cyclone sampler. The enriched aerosol suspension was analyzed in a flow cell by a commercial spectrofluorometer at eight different wavelength combinations. The data were obtained from the disseminations of biological simulants at the 6th Joint Field Trials at Defence Research Establishment Suffield, Ralston, Alberta, Canada. The measurement concept was to use intrinsic biological fluorescence to distinguish between the different simulants as well as to distinguish them from interfering particles such as smoke and dust. Fluorescence data were analyzed using principal component analysis. © 2001 John Wiley & Sons, Inc. Field Analyt Chem Technol 5: 171–176, 2001
本文描述了使用多波长荧光测量的多变量数据分析的生物气溶胶收集的空气-液体旋风采样器。浓缩气溶胶悬浮液在流动池中用商用荧光光谱仪在8种不同的波长组合下进行分析。这些数据是在加拿大阿尔伯塔省拉尔斯顿萨菲尔德国防研究机构第六次联合野外试验中传播生物模拟物获得的。测量概念是使用固有的生物荧光来区分不同的模拟物,并将它们与烟雾和灰尘等干扰粒子区分开来。采用主成分分析法对荧光数据进行分析。©2001 John Wiley & Sons, Inc化学工程学报(英文版),2001
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引用次数: 16
On-site analysis of world war II cylinders and barrels with unknown contents 现场分析第二次世界大战的钢瓶和桶与未知内容
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10009
E. Davoli, L. Cappellini, R. Fanelli, Michele Bonsignore, M. Gavinelli
An on-site approach is presented to solve an analytical problem that had potential hazards. Some barrels and one cylinder, with unknown contents, were found underground. There were reasons to suspect that they might hold chemical warfare (CW) agents, but neither the class of compounds nor their physical state (solid, liquid, or gas) was known. Their conditions did not allow transport to a laboratory. It was decided to install an on-site, direct sampling system so as to minimize sample handling risks, and to use mass spectrometry to analyze the vapors inside the barrels. A small commercial bench-top quadrupole was adapted to sample the gas phase directly, possibly at high pressure. The whole system allowed the operators to open the barrels and the cylinder and to analyze and dispose of the contents safely, on-site. Mass spectra indicated that most of the containers were empty, a few contained water and hydrocarbons, and one had phosgene gas. © 2002 Wiley Periodicals, Inc. Field Analyt Chem Technol 5: 313–319, 2001; DOI 10.1002/fact.10009
提出了一种现场方法来解决具有潜在危害的分析问题。在地下发现了一些桶和一个圆筒,内容不明。有理由怀疑他们可能持有化学战剂(CW),但既不知道化合物的类别,也不知道它们的物理状态(固体、液体或气体)。他们的条件不允许运送到实验室。决定安装现场直接取样系统,以尽量减少样品处理风险,并使用质谱法分析桶内的蒸汽。小型商用台式四极杆可以在高压下直接对气相进行取样。整个系统允许操作人员打开桶和钢瓶,并在现场安全分析和处理内容物。质谱表明,大多数容器是空的,一些容器含有水和碳氢化合物,一个容器含有光气。©2002 Wiley期刊公司化学工程学报(英文版);2009;DOI 10.1002 / fact.10009
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引用次数: 5
Thanking all FACT contributors and readers 感谢所有FACT贡献者和读者
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10013
HenkL.C. Meuzelaar
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引用次数: 0
Development of a high affinity monoclonal antibody against imazapyr and its configuration in a sensitive ELISA suitable for field use 一种高亲和力抗伊马扎吡单克隆抗体的研制及其在适合现场使用的ELISA中的结构
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10012
L. K. Siew, J. Dessi, J. Spoors, L. Winger, L. Jennens, C. Self
Although polyclonal antibodies specific for the herbicide imazapyr have been described and have formed the basis of an immunoassay (at one time commercially available but since withdrawn), it is clear that this molecule has limited immunogenicity. We evaluated various hapten–protein conjugates for their capacity to elicit antibody binding to imazapyr from multiply immunized murine hosts, as assessed by hapten-competed inhibition of reactivity with hapten conjugated to a heterologous carrier. From one highly reactive individual, we subsequently developed a monoclonal antibody exhibiting a high reactivity to this agrochemical. With this antibody we have been able to configure immunoassays in formats suitable for either laboratory or field use that exhibit both high performance and convenience, such that sensitivities for imazapyr in the range of 1 ng/ml can be achieved. While further testing of this anti-imazapyr antibody in field conditions is required, the availability of a constant source of immunoreactive immunoglobulin may be important in the development of useful immunoanalytical approaches for the assessment of imazapyr at the point-of-need. © 2002 Wiley Periodicals, Inc. Field Analyt Chem Technol 5: 281–287, 2001; DOI 10.1002/fact.10012
尽管已经描述了除草剂imazapyr特异性的多克隆抗体,并形成了免疫测定的基础(一度在商业上可用,但后来被撤回),但很明显,该分子具有有限的免疫原性。我们评估了各种半抗原蛋白偶联物在多重免疫小鼠宿主中诱导抗体结合imazapyr的能力,通过半抗原竞争抑制与异源载体偶联的半抗原的反应性来评估。从一个高度反应的个体,我们随后开发了一种单克隆抗体,显示出对这种农用化学品的高反应性。有了这种抗体,我们已经能够配置适合实验室或现场使用的格式的免疫测定,表现出高性能和便利性,使imazapyr的灵敏度在1 ng/ml范围内可以实现。虽然需要在现场条件下进一步测试这种抗伊马扎吡抗体,但在开发有用的免疫分析方法以在需要时评估伊马扎吡时,获得持续的免疫反应性免疫球蛋白来源可能很重要。©2002 Wiley期刊公司化学工程学报(英文版);2001;DOI 10.1002 / fact.10012
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引用次数: 0
Enhanced biosensor performance for on‐site field analysis of explosives in water using solid‐phase extraction membranes 使用固相萃取膜对水中爆炸物进行现场分析,增强了生物传感器性能
Pub Date : 2001-01-01 DOI: 10.1002/FACT.10007
P. Charles, Bridgette M. Dingle, Saskia K. van Bergen, P. R. Gauger, C. H. Patterson, A. Kusterbeck
Biosensors, over the past decade, have demonstrated their utility in a number of environmental applications. One application has been trace-level detection of energetic materials (i.e., explosives) in the soil, sediment, and waterways as a result of unexploded ordnances from past military exercises. A promising biosensor, developed at the Naval Research Laboratory, has been designed to detect the explosives 2,4,6-trinitrotoulene (TNT) and 1,3,5-hexahydro-1,3,5-trinitrotriazine (RDX), utilizing a displacement immunoassay format. The fundamental principle of the biosensor relies on the specificity of the recognition element (e.g., antibody) to recognize and bind the explosive molecule, with subsequent release and fluorescence signal response by a cyanine-5 labeled reporter complex. In recent analytical tests performed on environmental samples, erroneous signal responses and inaccurate quantitative measurements were obtained with the biosensor as a result of interference components in the environmental matrices. In this paper, we investigated the use of solid-phase extraction (SPE) membranes for their efficiency to extract the explosives TNT and RDX in water samples to improve quantitative measurements conducted with the biosensor. Three SPE membranes were evaluated: (1) styrenedivinylbenzene-extra clean (SDB-XC) copolymer, (2) styrenedivinylbenzene-reverse phase sulfonated (SDB-RPS) copolymer, and (3) C-18 octadecyl bonded silica (C18). Each SPE membrane was exposed to media containing the explosives TNT, RDX or both. Initial experiments were conducted to determine which SPE membrane and what elution solvent was most effective in the extraction of both TNT and RDX from water samples. Solvent extracts from the SPE membranes containing the explosive molecules were also analyzed using a reverse-phase high performance liquid chromatography method (EPA SW846-Method 8330). Experimental results using the SDB-RPS membrane to extract TNT or RDX from groundwater or seawater consistently produced extraction efficiencies between 80 and 100%. Results also confirmed that combining the extraction capabilities of the SPE membrane improved the fluorescence signal response and accuracy of the biosensor twofold in comparison to previous analysis © 2002 Wiley Periodicals, Inc.* Field Analyt Chem Technol 5: 272–280, 2001; DOI 10.1002/fact.10007
在过去的十年中,生物传感器已经在许多环境应用中证明了它们的实用性。一种应用是对过去军事演习中未爆炸弹药所产生的土壤、沉积物和水道中的高能物质(即爆炸物)进行痕量探测。美国海军研究实验室(Naval Research Laboratory)开发了一种前景看好的生物传感器,用于利用位移免疫分析法检测炸药2,4,6-三硝基oulene (TNT)和1,3,5-六氢-1,3,5-三硝基三嗪(RDX)。该生物传感器的基本原理是依靠识别元件(如抗体)的特异性来识别和结合爆炸分子,随后释放并通过花青素-5标记的报告复合物响应荧光信号。在最近对环境样品进行的分析测试中,由于环境基质中的干扰成分,生物传感器获得了错误的信号响应和不准确的定量测量。在本文中,我们研究了使用固相萃取(SPE)膜提取水样中炸药TNT和RDX的效率,以改进生物传感器的定量测量。对三种SPE膜进行了评价:(1)苯乙烯二乙烯基苯-超净(SDB-XC)共聚物,(2)苯乙烯二乙烯基苯-反相磺化(SDB-RPS)共聚物,(3)C-18十八烷基键合二氧化硅(C18)。每个SPE膜暴露于含有炸药TNT, RDX或两者的介质中。初步实验确定了哪种SPE膜和哪种洗脱溶剂最有效地从水样中提取TNT和RDX。采用反相高效液相色谱法(EPA SW846-Method 8330)对含有炸药分子的SPE膜的溶剂提取物进行分析。实验结果表明,使用SDB-RPS膜从地下水或海水中提取TNT或RDX的萃取效率始终保持在80%至100%之间。结果还证实,与以前的分析相比,结合SPE膜的提取能力将荧光信号响应和生物传感器的准确性提高了两倍©2002 Wiley期刊,Inc.* Field analysis Chem technology, 5: 272 - 280,2001;DOI 10.1002 / fact.10007
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引用次数: 39
Field detection and identification of a bioaerosol suite by pyrolysis-gas chromatography-ion mobility spectrometry* 热分解-气相色谱-离子迁移谱法对生物气溶胶的现场检测和鉴定*
Pub Date : 2001-01-01 DOI: 10.1002/FACT.1021
A. Snyder, A. Tripathi, W. Maswadeh, J. Ho, M. Spence
Improvements were made to a pyrolysis-gas chromatography-ion mobility spectrometry (Py-GC-IMS) stand-alone biodetector to provide more pyrolyzate compound information to the IMS detector module. Air carrier gas flowing continuously through the pyrolysis tube, the rate of air flow, and pyrolysis rate were found to improve the relative quality and quantity of pyrolyzate compounds detected by the IMS detector compared to earlier work. These improvements allowed a greater degree of confidence in the correlation of biological aerosols obtained in outdoor testing scenarios to a standard GC-IMS biological aerosol dataset. The airflow improvement allowed more biomarker compounds to be observed in the GC-IMS data domain for aerosols of gram-negative Erwinia herbicola (EH) and ovalbumin protein as compared to previous studies. Minimal differences were observed for gram-positive spores of Bacillus subtilis var. globigii (BG) from that of earlier work. Prior outdoor aerosol challenges dealt with the detection of one organism, either EH or BG. Biological aerosols were disseminated in a Western Canadian prairie and the Py-GC-IMS was tested for its ability to detect the biological aerosols. The current series of outdoor trials consisted of three different biological aerosol challenges. Forty-two trials were conducted and a simple area calculation of the GC-IMS data domain biomarker peaks correlated with the correct bioaerosol challenge in 30 trials (71%). In another 7 trials, the status of an aerosol was determined to be biological in origin. Two additional trials had no discernible, unambiguous GC-IMS biological response, because they were blank water sprays. Reproducible limits of detection were at a concentration of less than 0.5 bacterial analyte-containing particle per liter of air. In order to realize this low concentration, an aerosol concentrator was used to concentrate 2000 l of air in 2.2 min. Previous outdoor aerosol trials have shown the Py-GC-IMS device to be a credible detector with respect to determining the presence of a biological aerosol. The current series of outdoor trials has provided a platform to show that the Py-GC-IMS can provide information more specific than a biological or non-biological analysis to an aerosol when the time of dissemination is unknown to the operator. The Py-GC-IMS is shown to be able to discriminate between aerosols of a gram-positive spore (BG), a gram-negative bacterium (EH), and a protein (ovalbumin). © 2001 John Wiley & Sons, Inc. Field Analyt Chem Technol 5: 190–204, 2001
对热解-气相色谱-离子迁移谱(Py-GC-IMS)独立生物检测器进行了改进,为IMS检测器模块提供更多的热解化合物信息。与之前的工作相比,载气在热解管中连续流动、气流速率和热解速率可以提高IMS检测器检测到的热解产物的相对质量和数量。这些改进使得在室外测试情景中获得的生物气溶胶与标准GC-IMS生物气溶胶数据集的相关性具有更大的可信度。与以前的研究相比,气流的改善使得在GC-IMS数据域中可以观察到更多的生物标志物化合物,用于革兰氏阴性Erwinia除草剂(EH)和卵清蛋白的气溶胶。观察到革兰氏阳性芽孢枯草芽孢杆菌变种globigii (BG)与早期工作的差异很小。以前的室外气溶胶挑战处理一种生物的检测,EH或BG。生物气溶胶散布在加拿大西部的草原上,并测试了Py-GC-IMS检测生物气溶胶的能力。目前的一系列户外试验包括三种不同的生物气溶胶挑战。进行了42次试验,对30次试验(71%)中GC-IMS数据域生物标志物峰与正确的生物气溶胶挑战相关的简单面积计算。在另外7项试验中,气溶胶的状态被确定为生物来源。另外两项试验没有明显的、明确的GC-IMS生物反应,因为它们是空白水喷雾。检测的重现限为每升空气中含有细菌分析物的颗粒浓度小于0.5。为了实现这种低浓度,使用气溶胶浓缩器在2.2分钟内浓缩2000升空气。以前的室外气溶胶试验表明,Py-GC-IMS设备是确定生物气溶胶存在的可靠探测器。目前的一系列室外试验提供了一个平台,表明当操作者不知道气溶胶的传播时间时,Py-GC-IMS可以提供比生物或非生物分析更具体的信息。经证明,pygc - ims能够区分革兰氏阳性孢子(BG)、革兰氏阴性细菌(EH)和蛋白质(卵白蛋白)的气溶胶。©2001 John Wiley & Sons, Inc化学工程学报(英文版),2001,31 (5):391 - 394
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引用次数: 34
期刊
Field Analytical Chemistry and Technology
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