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软冷电子电离——仅通过电子电离接近分子离子。

Soft Cold EI - approaching molecular ion only with electron ionization.

作者信息

Amirav Aviv, Keshet Uri, Danon Albert

机构信息

School of Chemistry, Tel Aviv University, Tel Aviv, 69978, Israel.

Nuclear Research Center Negev, P.O. Box 9001, Beer Sheva, Israel.

出版信息

Rapid Commun Mass Spectrom. 2015 Nov 15;29(21):1954-60. doi: 10.1002/rcm.7305.

Abstract

RATIONALE

Cold EI is defined as electron ionization of cold molecules in supersonic molecular beams (SMB). Gas chromatography/mass spectrometry (GC/MS) with Cold EI provides informative mass spectra, which combine the usual library-searchable EI fragment ions with enhanced molecular ions for improved library-based identification probabilities. However, in some cases, such as in the analysis of complex petrochemical matrices, a soft ionization method that provides only molecular ions is desirable.

METHODS

GC/MS with Cold EI was used with a fly-through ion source at selected electron energies, including at low electron energies, in an attempt to observe molecular ions alone.

RESULTS

We explored low electron energy Cold EI and found that once the sample compound is cooled by the supersonic expansion it can be reheated via reflected scattered helium atoms near the skimmer. Furthermore, once a labile molecular ion is formed it can undergo undesirable collision-induced dissociation (CID) in the same way as in tandem mass spectrometry (MS/MS), and the magnitude of such CID can be significant for labile molecular ions such as those of hydrocarbons. In order to reduce these adverse effects we reduced the helium pressure at the ion source and MS vacuum chamber by increasing the nozzle-skimmer distance. Cold EI at low electron energies was explored with a squalane isomer (C30 H62 ) and with n-C24 H50 .

CONCLUSIONS

It was found that an increased nozzle-skimmer distance resulted in a noticeable increase in the abundance ratio of molecular ions to low mass fragment ions. Consequently, Cold EI at low electron energies and a large nozzle-skimmer distance converts EI into Soft Cold EI while further approaching the ideal of a molecular ion only ionization method.

摘要

原理

冷电子电离(Cold EI)被定义为在超声分子束(SMB)中对冷分子进行电子电离。配备冷电子电离的气相色谱/质谱联用仪(GC/MS)可提供信息丰富的质谱图,该质谱图将常见的可用于库检索的电子电离碎片离子与增强的分子离子相结合,以提高基于库的鉴定概率。然而,在某些情况下,例如在分析复杂的石化基质时,需要一种仅提供分子离子的软电离方法。

方法

使用配备冷电子电离的GC/MS,并在选定的电子能量下,包括低电子能量下,采用飞越式离子源,试图仅观察分子离子。

结果

我们探索了低电子能量的冷电子电离,发现一旦样品化合物通过超声膨胀冷却,它可以通过在分离器附近反射散射的氦原子重新加热。此外,一旦形成不稳定的分子离子,它会像在串联质谱(MS/MS)中一样经历不良的碰撞诱导解离(CID),对于诸如烃类的不稳定分子离子,这种CID的程度可能很大。为了减少这些不利影响,我们通过增加喷嘴 - 分离器的距离来降低离子源和质谱真空室中的氦气压力。使用角鲨烷异构体(C30H62)和正二十四烷(n-C24H50)探索了低电子能量下的冷电子电离。

结论

发现增加喷嘴 - 分离器的距离会导致分子离子与低质量碎片离子的丰度比显著增加。因此,低电子能量和大喷嘴 - 分离器距离下的冷电子电离将电子电离转变为软冷电子电离,同时进一步接近仅产生分子离子的理想电离方法。

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