Review of Gas-Chromatographic Measurement Methodologies for Atmospheric Halogenated Greenhouse Gases.

IF 4.2 2区 化学 Q1 CHEMISTRY, ANALYTICAL Critical reviews in analytical chemistry Pub Date : 2024-01-19 DOI:10.1080/10408347.2024.2302576
Noh Soo Han, Jeong Sik Lim
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Abstract

Gas chromatography (GC) is crucial for measuring atmospheric halogenated greenhouse gases (hGHGs), usually coupled with electron capture detector (ECD, with higher sensitivity) or mass spectrometry (MS, with higher selectivity). This review compares GC-ECD and GC-MS for analyzing atmospheric hGHGs in terms of analytical methodology, performance, and instrumentation. For hGHGs such as SF6, chlorofluorocarbons, and N2O, ECD can be employed in the single column, forecut-backflush (FCBF), and preconcentration methods. The order of appearance of SF6 and N2O is an important consideration for selecting the separation column to avoid chromatographic interference from the long-tailed N2O and O2 on SF6. Single column and FCBF GC-ECD methods suffer from nonlinear responsivity, but the preconcentration method can compensate for nonlinearity. The last method also offers a low drift, which eliminates the need for multipoint calibration and enables perfect linearity at atmospheric SF6 levels. GC-MS demonstrates strong separability and identification capabilities, and over 60 hGHGs can be qualitatively analyzed by leveraging the separation power of MS and established MS databases. However, GC-MS requires a preconcentrator operating at -165 °C utilizing specialized adsorbents. Two notable preconcentrator-GC-MS systems, Medusa-GC-MS and detachable trap preconcentrator (DTP) GC-MS, differ in trap design, temperature scheme, and separation column type. Medusa-GC-MS employs a three-phased temperature operation before MS. DTP-GC-MS separates the preconcentration cycle into highly and less volatile compounds, using a different temperature scheme from that of Medusa-GC-MS. The preconcentrator-GC-MS system is widely employed for measuring perfluorocarbons, hydrofluorocarbons, and other hGHGs. This method necessitates multiple adsorption traps to discriminate the most abundant air components.

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大气卤化温室气体气相色谱测量方法回顾。
气相色谱法(GC)是测量大气卤代温室气体(hGHGs)的关键,通常与电子捕获检测器(ECD,灵敏度更高)或质谱法(MS,选择性更高)结合使用。本综述从分析方法、性能和仪器方面对用于分析大气中温室气体的 GC-ECD 和 GC-MS 进行了比较。对于 SF6、氯氟化碳和 N2O 等 hGHGs,ECD 可用于单柱、前切后冲(FCBF)和预浓缩方法。SF6 和 N2O 的出现顺序是选择分离柱的重要考虑因素,以避免 SF6 上长尾 N2O 和 O2 的色谱干扰。单柱和 FCBF GC-ECD 方法存在非线性反应,但预浓缩方法可以补偿非线性。最后一种方法还具有低漂移的特点,因此无需进行多点校准,在大气中的 SF6 水平下也能达到完美的线性。GC-MS 具有很强的分离和鉴定能力,利用 MS 的分离能力和已建立的 MS 数据库,可以对 60 多种 hGHGs 进行定性分析。不过,气相色谱-质谱联用仪需要使用专门的吸附剂,在-165 °C的温度下工作。两种著名的预浓缩器-气相色谱-质谱联用仪系统,即 Medusa-GC-MS 和可分离捕集器预浓缩器 (DTP) 气相色谱-质谱联用仪,在捕集器设计、温度方案和分离柱类型上各不相同。Medusa-GC-MS 在 MS 之前采用三阶段温度操作。DTP-GC-MS 采用与 Medusa-GC-MS 不同的温度方案,将预浓缩循环分为高挥发性和低挥发性化合物。预浓缩器-气相色谱-质谱系统被广泛用于测量全氟化碳、氢氟碳化合物和其他 hGHGs。这种方法需要多个吸附捕集器来分辨空气中含量最高的成分。
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来源期刊
CiteScore
12.00
自引率
4.00%
发文量
137
审稿时长
6 months
期刊介绍: Critical Reviews in Analytical Chemistry continues to be a dependable resource for both the expert and the student by providing in-depth, scholarly, insightful reviews of important topics within the discipline of analytical chemistry and related measurement sciences. The journal exclusively publishes review articles that illuminate the underlying science, that evaluate the field''s status by putting recent developments into proper perspective and context, and that speculate on possible future developments. A limited number of articles are of a "tutorial" format written by experts for scientists seeking introduction or clarification in a new area. This journal serves as a forum for linking various underlying components in broad and interdisciplinary means, while maintaining balance between applied and fundamental research. Topics we are interested in receiving reviews on are the following: · chemical analysis; · instrumentation; · chemometrics; · analytical biochemistry; · medicinal analysis; · forensics; · environmental sciences; · applied physics; · and material science.
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