共查询到19条相似文献,搜索用时 83 毫秒
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顶空固相微萃取-气相色谱-质谱联用测定饮用水中的2-甲基异莰醇和土臭素 总被引:1,自引:0,他引:1
2-甲基异莰醇(2-methylisoborneol, 2-MIB)和土臭素(geosmin, GSM)在水源水中大量分泌排放是造成饮用水土霉异味突发事件、引发居民用水恐慌的重用因素之一。使用顶空固相微萃取(HS-SPME)与气相色谱-质谱联用技术(GC-MS)建立了水库水、水库附近土壤、居民自来水中2-MIB和GSM的测定方法。结合正交分析优化了加盐量、萃取温度、萃取时间条件,在电子轰击(EI)-选择离子扫描(SIM)模式下进行了目标物的定性定量分析。结果表明:在5~1000 ng/L范围内,2-MIB和GSM的色谱峰面积与其质量浓度的线性关系良好(r2≥0.998), 2-MIB与GSM的检出限分别为0.72 ng/L和0.34 ng/L,定量限分别为2.40 ng/L和1.13 ng/L;目标物加标水平为10~600 ng/L时,平均回收率为93.6%~107.7%,相对标准偏差(RSD)≤6.1%(n=6)。基于上述方法,对辽宁省某地区水库水、水库附近土壤、居民自来水中的目标物进行检测,结果表明:水库水目标物质量浓度范围为3.0~3.6 ng/L,水库附近土壤中提取的2-MIB为8.1 ng/L、提取的GSM为17.8 ng/L,居民自来水中的目标物未检出。该方法操作简便、准确可靠,灵敏度高,无需有机溶剂,适合于饮用水中2-MIB和GSM的分析检测。 相似文献
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建立了固相微萃取(SPME)与气相色谱-质谱(GC-MS)联用同时测定海水中16种多环芳烃的分析方法, 研究了萃取时间、盐度条件的影响. 同时用SPME的方法研究了海水中的溶解有机物(DOM)对多环芳烃萃取的影响. 计算出不同DOM浓度下多环芳烃KDOM与KOW的关系: CDOM=5 mg/L时, logKDOM = 0.7944KOW + 0.773 (R2 = 0.91). CDOM=10 mg/L时, logKDOM = 0.7905KOW + 0.668 (R2 = 0.97); CDOM=30 mg/L时, logKDOM = 0.714KOW + 1.0407(R2 = 0.91). 该法对16种多环芳烃的检出限为0.1~3.5 ng/L, 相对标准偏差(RSD, n=5)为 4%~23%. 用该法分析海洋环境中的痕量多环芳烃, 16种多环芳烃的平均回收率为88.2±20.4%, 方法快速、灵敏、简单, 适用于快速分析海水和沉积物间隙水样中的痕量多环芳烃. 相似文献
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顶空固相微萃取-气相色谱-质谱测定水中异味化合物 总被引:20,自引:1,他引:20
采用顶空固相微萃取-气相色盐/质谱联用测定了水中常见的3种异味化合物,即2-甲基异茨醇、土腥素和β-柠檬醛。研究并讨论了纤维头的类型、盐的种类和浓度、温度、萃取时间、搅拌和解吸时间等因素对异味化合物萃取量的影响。结果表明:在水样中加入30%(W/V)的NaCl溶液,采用65μm PDMS/DVB纤维头,在搅拌的条件下,于60℃顶空萃取40min为异味化合物固相微萃取的最佳条件。在优化的条件下,使异味化合物吸附于纤维涂层后,将其在250℃高温下解吸,再用GC—MS分析。土腥素、β-柠檬醛、2-甲基异茨醇的检出限依次为1.0、1.3和1.7ng/L;其相对标准偏差分别为4.9%、8.4%和6.2%:3种异味化合物在5~1000ng/L的范围内线性关系良好,相关系数均大于0.997。因此,用该方法分析水中痕量(ng/L级)的异味化合物,结果满意。 相似文献
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《Analytical letters》2012,45(8):1544-1557
Geosmin (GSM) and 2-methylisoborneol (MIB) were extracted from water samples, adsorbed in organic solvent microdrop by headspace liquid-phase microextraction (HS-LPME), and were analyzed by gas chromatography-mass spectrometry (GC-MS). Influence factors such as the extraction solvent types, headspace and microdrop volumes, stirring rate, equilibrium and extraction time, and ionic strength for HS-LPME efficiency were thoroughly evaluated. Under optimized extraction and detection conditions, the calibration curves of GSM and MIB were linear in the range of 5–1000 ng/L. The detection limits of GSM and MIB were 1.1 and 1.0 ng/L, respectively. Average recoveries of 95.45–113.7% (n = 5) were obtained and method precisions were also satisfactory. Trace levels of the off-flavor compounds at ng/L in tap water and raw water were successfully quantified. 相似文献
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采用顶空固相微萃取–气质联用(HS-SPME–GC–MS)的方法对地表水中2-甲基异冰片(2-MIB)和土臭素(GSM)进行分析测定。通过试验确定了HS-SPME的最佳萃取条件:萃取头为DVB/CAR/PDMS,萃取时间为30 min,萃取温度为70℃,NaCl的加入量为30%(质量分数),萃取纤维在GC上的解吸温度为250℃。用内标法进行定量,2-MIB,GSM的质量浓度在5~100 ng/L范围内与色谱峰面积呈良好的线性关系,线性相关系数(r2)分别为0.999 7,0.997 0,检出限分别为0.8,1.7 ng/L。采用该法对水样进行测定,2-MIB,GSM测定结果的相对标准偏差为2.6%~6.3%(n=6),加标回收率为92%~112%。该方法能简单、快速地测定水中痕量嗅味物质。 相似文献
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M. H. De. Oliveira M. E. C. Queiroz D. Carvalho S. M. Silva F. M. Lancas 《Chromatographia》2005,62(3-4):215-219
A simple, sensitive, and reproducible solid-phase microextraction and capillary gas chromatography-mass spectrometry (SPME-GC-MS) method for determination of diazepam in human plasma is described. The optimum conditions for the SPME procedure were as following: direct extraction mode with a polydimethylsiloxane (PDMS) fiber (100 μm film thickness), 250 μL of sample plasma matrix modified with a solution containing sodium chloride (10% weight by volume) and 4.25 mL of a phosphate buffer solution (0.1mol L−1, pH 6.9), extraction temperature 55°C under a magnetic stirring rate of 2500 rpm for 30 min, followed by the drug thermal desorption (250°C) in a GC injection port for 10 min. The limit of quantification of diazepam in plasma was 10.0 ng mL−1, with a coefficient of variation lower than 14.0% and linearity from 10.0 to 1000.0 ng mL−1, which allows diazepam analyses from sub to therapeutic levels. 相似文献
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将超声辅助乳化与液液微萃取技术结合,建立了水体中人工合成麝香的气相色谱-质谱分析方法.优化前处理条件,包括萃取剂、萃取剂体积、萃取时间、萃取温度及离子强度的选择.结果表明:在10 mL水样中,加入50 μL氯苯作为萃取剂,4 0 MHz超声10 min,混匀,以4000 r/min离心10 min,移取下层有机相进样分析,效果佳.样品的富集倍数可达200倍,8种人工合成麝香在0.005~0.4 μg/L范围内线性关系良好,相关系数均大于0.994;检出限为0.3~0.5 ng/L;水样中加标回收率为96.2%~102.9%;相对标准偏差为2.3%~4.1%.本方法灵敏、快速、准确,可满足环境水样中痕量人工合成麝香监测的质控要求. 相似文献
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顶空固相微萃取-气质联用分析小麦储藏过程中挥发性成分变化 总被引:16,自引:0,他引:16
采用顶空固相微萃取(HS-SPME)和气相色谱-质谱联用(GC-MS)对不同储藏时间弱(强)筋小麦中的挥发性物质进行提取、鉴定与分析.选用复合萃取纤维二乙烯基苯-炭烯-聚二甲硅氧烷共聚物(DVB/CAR/PDMS)50 μm涂层,对萃取温度、时间、样品用量和解析时间进行优化.结果表明: HS-SPME测定挥发性物质的最佳前处理条件样品量20 g, 萃取温度75 ℃, 萃取时间60 min, 260 ℃条件下解析5 min;经鉴定分析小麦挥发性成分主要有烃类、醛类,其次为醇类、酮类;挥发性成分总含量在储藏6个月内均呈现先降后增的趋势.弱筋小麦的烃类挥发物相对量随储藏时间延长而快速增加,醛类相对含量先降后升,而酮类和醇类相对含量则逐渐下降;强筋小麦中除烃类相对含量呈先下降而后快速增加外,其余各类挥发物含量均与弱筋小麦呈现相同的规律.储藏6个月后,变化较明显的挥发性物质有己醇、己醛、2,6,10-三甲基-十二烷、十五烷和二十烷. 相似文献
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建立了测定化妆品中硝基甲烷的固相萃取-气相色谱-质谱分析方法。膏霜、水剂、散粉、香波、唇膏等不同类型的化妆品样品加入甲醇或无水乙醇超声提取后,提取液高速离心处理,浓缩上清液,采用Sep-Pak Silica固相萃取柱净化,收集80%甲醇-20%二氯甲烷洗脱液,浓缩后经无水硫酸钠脱水,进行气相色谱-质谱定性及定量分析。选用HP-INNOWax石英毛细管柱(30m×0.25mm×0.25μm),程序升温,流速1.0mL/min;采用电子轰击电离源,选择监测离子(m/z30、46、61,其中61为定量离子),外标法定量。方法的平均回收率为83.0%~96.4%,相对标准偏差(RSD)为1.0%~5.3%,方法对硝基甲烷的检出限为0.2mg/kg。该方法准确、灵敏度高,可用于化妆品中硝基甲烷的测定。 相似文献
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《Analytical letters》2012,45(5):721-729
The extraction and determination of volatile compounds in mice urine were performed using headspace solid-phase microextraction and gas chromatography-mass spectrometry. In order to optimize the extraction conditions, experimental design was applied. A sample volume of 108 µl, a temperature of 148.6°C, and a time of 94 minutes were found to be the optimal conditions. Samples of male and female mouse urine were analyzed to determine volatile compound profiles. A total of 36 organic compounds including ketones, aldehydes, and terpenes were detected. The results revealed that compounds such as 2-isopropyl-4,5-dihydrothiazole, which is considered a male sexual pheromone, were only detected in male urine samples, whereas others like benzaldehyde were especially abundant in female mouse urine. A comparison of female samples corresponding to different stages of the estrous cycle was also performed. 相似文献
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衍生化固相微萃取与气相色谱-质谱联用测定生活垃圾渗沥液中双酚A 总被引:8,自引:0,他引:8
建立了固相微萃取-顶空衍生化与色谱-质谱联用技术测定水中双酚A定量分析方法。对影响萃取和衍生化过程的参数进行了条件优化,实验选用聚丙烯酸酯(PA)萃取纤维,在搅拌速度为1200r/min、溶液离子强度100g/L、pH2和25℃的条件下萃取60min后,N,O双(三甲基硅烷基)三氟乙酰胺(BSTFA)顶空衍生化5min。方法的线性范围是0.09~200μg/L;检出限0.03μg/L;相对标准偏差为3·88%。应用本方法对广州大田山垃圾填埋场的垃圾渗沥液中的双酚A进行了测定。 相似文献