用于大气中CFC-11、CFC-12、HCFC-22和HCFC-141b现场分析的便携式双级低温预富集气相色谱线性离子阱质谱仪的研制

IF 3.3 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2025-09-02 DOI:10.1039/d5an00727e

XuJie Deng, BoWen Wang, Zhang Ni, yulin chen, Shuo Zhang, Xinxin Lu, XiaoXu Li

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引用次数: 0

摘要

尽管监管机构禁止使用臭氧消耗物质（ODS），如CFC-11和CFC-12，但最近的大气测量显示了意想不到的排放，可能来自遗留库或未报告的生产。传统的臭氧消耗物质监测在很大程度上依赖于大型的实验室仪器，这些仪器不适合快速的现场来源识别。在这项研究中，我们提出了一种便携式气相色谱线性离子阱质谱仪（gc - lite - ms），用于现场定量四种代表性的ODS: CFC-11， CFC-12， HCFC-22和HCFC-141b。gc - lite - ms集成了一个基于双级热电冷却（TEC）的预富集系统，可实现快速温度调制，有效的样品预富集和强大的现场操作。外部一级低温预富集模块包括单个TEC芯片、散热风扇和控制模块，结构紧凑、简单。该模块可以进一步集成到无人驾驶平台，如无人机或自动地面车辆，以便在其他无法进入的位置进行现场采样。对色谱柱类型（DB-WAX）、吸附剂组成（carbpack B/Carboxen 1000）、热条件等关键参数进行优化，可在17分钟内完成分离和定量。该方法线性良好（2 ~ 50 ppb, R²> 0.996），检出限低（0.06 ~ 0.21 ppb），重复性好（RSD < 5.5%）。加样回收率为97.98% ~ 113.56%。这种便携式GC-LIT-MS为ODS排放筛选，环境执法和实时大气监测提供了敏感，高效的解决方案。

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Development of a Portable Gas Chromatograph Linear Ion Trap Mass Spectrometer with Dual-Stage Cryogenic Preconcentration for On-Site Analysis of Atmospheric CFC-11, CFC-12, HCFC-22, and HCFC-141b

Despite regulatory bans on ozone-depleting substances (ODS) such as CFC-11 and CFC-12, recent atmospheric measurements have revealed unexpected emissions, potentially originating from legacy banks or unreported production. Conventional ODS monitoring relies heavily on large, laboratory-based instruments, which are unsuitable for rapid, on-site source identification. In this study, we present a portable gas chromatograph linear ion trap mass spectrometer (GC-LIT-MS) for on-site quantification of four representative ODS: CFC-11, CFC-12, HCFC-22, and HCFC-141b. The GC-LIT-MS integrates a dual-stage thermoelectric cooling (TEC)-based preconcentration system, enabling rapid temperature modulation, efficient sample preconcentration, and robust field operation. The external first-stage cryogenic preconcentration module comprises a single TEC chip, a heat-dissipating fan, and a control module, resulting in a compact and simple structure. This module can be further integrated into unmanned platforms such as drones or autonomous surface vehicles to enable on-site sampling in otherwise inaccessible locations. Key parameters, including column type (DB-WAX), sorbent composition (Carbopack B/Carboxen 1000), and thermal conditions, were optimized to achieve complete separation and quantification within 17 minutes. The method demonstrates excellent linearity (2–50 ppb, R² > 0.996), low detection limits (0.06–0.21 ppb), and good repeatability (RSD < 5.5%). Recoveries ranged from 97.98% to 113.56%. This portable GC-LIT-MS offers a sensitive, efficient solution for ODS emission screening, environmental enforcement, and real-time atmospheric monitoring.

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