热脱附-气流调制全二维气相色谱-飞行时间质谱测定环境大气中中等挥发性有机物OA
Determination of atmospheric intermediate volatility organic compounds with thermal desorption-flow modulator comprehensive two-dimensional gas chromatography-time-of-flight mass spectrometry
环境大气中中等挥发性有机物(IVOCs)组成复杂;因受传统一维气相色谱柱分离能力限制,大部分 IVOCs以未分离的色谱峰从色谱柱流出洗脱,因此无法将 IVOCs准确识别和定量,制约了对其准确溯源.针对以上问题,本研究基于热脱附-气流调制全二维气相色谱-飞行时间质谱(TD-FM GC×GC-TOF MS)技术,通过优化气流调制周期的填充时间和吹扫时间,建立了一种高效分离和定量环境大气中 IVOCs的分析方法.以 ZB-5HT(20 m×0.18 mm×0.18 μm)为一维色谱柱、BP-50(5 m×0.25 mm×0.20 μm)为二维色谱柱分离 IVOCs,设置填充时间 2 870 ms、吹扫时间 130 ms.在优化的分析条件下,69 个定量目标物在 1~20 ng/管范围内呈现良好的线性关系,相关系数为0.922 3~0.998 4 等;方法检出限为 0.010 7~0.410 1 ng/m3;目标物在 1 ng/管加标水平下的回收率为 80.4%~136.0%,在 1、3 和 10 ng/管的相对标准偏差分别为 4.5%~33.9%、3.2%~19.9%、3.5%~18.6%.利用该方法测定上海城区环境大气中 IVOCs的质量浓度和组成分布,结果显示,总 IVOCs质量浓度在 8.6~61.1 μg/m3,样品中检测到可识别有机物 853 个,对总 IVOCs质量浓度贡献可高达 96.2%,且新识别的芳香烃、Cl-IVOCs、O-IVOCs等有机物与常规监测目标物表现出不同排放来源特征.因此,该方法不仅为测定环境大气复杂 IVOCs提供了一种可靠的技术手段,也为大气中 IVOCs的精准溯源提供了数据支撑,还可应用于其他环境介质中 IVOCs的测定,为多介质中 IVOCs污染特征研究提供有力的技术支持.
Atmospheric intermediate volatile organic compounds(IVOCs)are complex mixtures.Due to the limited separation and identification capabilities of one-dimensional gas chromatography(1D-GC),a large portion of atmospheric IVOCs—which often elute as unresolved or complex peaks—are categorized as an unspeciated complex mixture(UCM).This constrains the accurate ap-portionment of atmospheric IVOCs.To address this problem,an alternative analytical method has been developed utilizing thermal desorption-flow modulation comprehensive two-dimensional gas chromatography coupled with time-of-flight mass spectrometry(TD-FM GC×GC-TOF MS)to measure atmospheric IVOCs.Analytical optimization focused on fill and flush time within a 3-second modulation period,with optimal values determined as 2 870 ms and 130 ms,respectively,to maximize separation efficiency and signal response.Compounds were separated on a ZB-5HT column(20 m×0.18 mm×0.18 μm)as the first dimension,with a BP-50 column(5 m×0.25 mm×0.20 μm)serving as the second dimension.Helium was employed as the carrier gas with column pressures maintained at 254.4 kPa(first dimension)and 202.1 kPa(second dimension).The following temperature program was used:50℃for 10 min,then increased to 300℃at 10℃/min,with the final temperature held for 20 min.The MS was operated in electron impact(EI,70 eV)ionization mode.Both the ion source and transfer line temperatures were set at 300℃.MS signals were re-corded in full scan mode with a scan range of m/z 40 to m/z 800.During thermal desorption,the desorption temperature was set at 320℃,and the cold trap temperature was maintained at-10℃to capture desorbed targets.The secondary desorption flow rate was set at 16 mL/min.Under these optimized conditions,the method demonstrated acceptable linearity,with correlation coefficients ranging from 0.922 3 to 0.998 4,for 69 selected targets spanning 1 to 20 ng/tube,with method detection limits(spiked at 1 ng/tube)between 0.010 7 and 0.410 1 ng/m3,with recoveries ranging from 80.4%to 136.0%.Relative standard deviation values among replicate samples(n=7)spiked at 1 ng/tube,3 ng/tube,and 10 ng/tube levels were around 4.5%-33.9%,3.2%-19.9%and 3.5%-18.6%,respectively.Application of the method to atmospheric IVOC samples collected from an urban site of Shanghai,revealed total IVOCs mass concentrations of 8.6-61.1 μg/m3.Of these,mass con-centrations of 853 individual species identified by the present method comprised 96.2%of total IVOCs.Consequently,the newly developed method improved the identification rate for UCM.Importantly,the newly speciated aromatics,chlorinated IVOCs,and oxygenated IVOCs exhibited different emission sources distinct from those routinely monitored compounds.Therefore,this study es-tablished a reliable method for determining atmospheric IVOCs,offering strong data support for precise source apportionment of complex IVOCs in the atmosphere.Additionally,this method can be used to monitor IVOCs across various environmental metrics,thereby providing essential data to support the management and control of these compounds.
汪睿;李英杰;王佳华;马长文;蒋家奎
生态环境部城市大气复合污染成因与防治重点实验室,上海市环境科学研究院,上海 200233||上海第二工业大学,上海 201209生态环境部城市大气复合污染成因与防治重点实验室,上海市环境科学研究院,上海 200233生态环境部城市大气复合污染成因与防治重点实验室,上海市环境科学研究院,上海 200233上海第二工业大学,上海 201209思聚仪器仪表(上海)有限公司,上海 200233
化学化工
热脱附气流调制全二维气相色谱飞行时间质谱中等挥发性有机物环境大气
thermal desorptionflow modulationcomprehensive two-dimensional gas chroma-tography(GC×GC)time-of-flight mass spectrometry(TOF-MS)intermediate volatility organic compounds(IVOCs)ambient atmosphere
《色谱》 2026 (4)
453-466,14
国家重点研发计划项目(2022YFC3703504)上海市自然科学基金(22ZR1453200). National Key Research and Development Program of China(No.2022YFC3703504)Natural Science Foundation of Shanghai(No.22ZR1453200).
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