低压光电离中通过二氯甲烷掺杂实现的质子化增强

Protonation enhancement by dichloromethane doping in low-pressure photoionization.

作者信息

Shu Jinian, Zou Yao, Xu Ce, Li Zhen, Sun Wanqi, Yang Bo, Zhang Haixu, Zhang Peng, Ma Pengkun

机构信息

State Key Joint Laboratory of Environment Simulation and Pollution Control, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, China.

University of Chinese Academy of Sciences, Beijing, China.

出版信息

Sci Rep. 2016 Dec 1;6:36820. doi: 10.1038/srep36820.

DOI:10.1038/srep36820

PMID:27905552

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5131348/

Abstract

Doping has been used to enhance the ionization efficiency of analytes in atmospheric pressure photoionization, which is based on charge exchange. Compounds with excellent ionization efficiencies are usually chosen as dopants. In this paper, we report a new phenomenon observed in low-pressure photoionization: Protonation enhancement by dichloromethane (CHCl) doping. CHCl is not a common dopant due to its high ionization energy (11.33 eV). The low-pressure photoionization source was built using a krypton VUV lamp that emits photons with energies of 10.0 and 10.6 eV and was operated at ~500-1000 Pa. Protonation of water, methanol, ethanol, and acetaldehyde was respectively enhanced by 481.7 ± 122.4, 197.8 ± 18.8, 87.3 ± 7.8, and 93.5 ± 35.5 times after doping 291 ppmv CHCl, meanwhile CHCl almost does not generate noticeable ions itself. This phenomenon has not been documented in the literature. A new protonation process involving in ion-pair and H-bond formations was proposed to expound the phenomenon. The observed phenomenon opens a new prospect for the improvement of the detection efficiency of VUV photoionization.

摘要

在基于电荷交换的大气压光电离中，掺杂已被用于提高分析物的电离效率。通常选择具有优异电离效率的化合物作为掺杂剂。在本文中，我们报道了在低压光电离中观察到的一种新现象：二氯甲烷（CHCl₂）掺杂导致质子化增强。由于其高电离能（11.33 eV），CHCl₂不是一种常见的掺杂剂。低压光电离源是使用氪真空紫外灯构建的，该灯发射能量为10.0和10.6 eV的光子，并在约500 - 1000 Pa下运行。在掺杂291 ppmv的CHCl₂后，水、甲醇、乙醇和乙醛的质子化分别增强了481.7 ± 122.4、197.8 ± 18.8、87.3 ± 7.8和93.5 ± 35.5倍，同时CHCl₂本身几乎不产生明显的离子。这种现象在文献中尚未有记载。为解释该现象，提出了一种涉及离子对和氢键形成的新质子化过程。观察到的现象为提高真空紫外光电离的检测效率开辟了新前景。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aba3/5131348/2b148de0dbbd/srep36820-f1.jpg

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低压光电离中通过二氯甲烷掺杂实现的质子化增强

Protonation enhancement by dichloromethane doping in low-pressure photoionization.

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