Chemical ionization
Chemical Ionization (CI) is a soft ionization technique used in mass spectrometry (MS) that generates ions from a sample through the interaction of the sample with ions of a reagent gas that are present in the ion source. Unlike electron ionization (EI), which uses high-energy electrons to ionize molecules, resulting in fragmentation, CI is a gentler method that often produces fewer fragments. This characteristic makes CI particularly useful for the analysis of complex mixtures, providing molecular weight information and improving the identification of the sample components.
Principles of Chemical Ionization[edit | edit source]
In chemical ionization, the sample is ionized by chemical reactions with ions of a reagent gas, such as methane, ammonia, or isobutane, which are introduced into the ion source of the mass spectrometer. The process typically occurs under relatively high pressure compared to electron ionization, in the range of 0.1 to 2 Torr. The primary ionization process involves the ionization of the reagent gas by an electron beam, producing a variety of reactant ions. These ions then react with the neutral molecules of the analyte to produce analyte ions.
The most common reactions involved in CI include proton transfer to form protonated molecules (M+H)+, charge exchange to form radical cations (M+•), and anion abstraction to form negative ions. The choice of reagent gas and the control of the ion source conditions (such as pressure and temperature) allow for some selectivity in the ionization process, enabling the optimization of the method for different types of analytes.
Applications of Chemical Ionization[edit | edit source]
Chemical ionization is widely used in the analysis of organic compounds, especially those that are fragile and tend to fragment when ionized by more energetic methods. Its applications include:
- Determining molecular weights of compounds - Identifying compounds in complex mixtures - Quantitative analysis of pharmaceuticals and metabolites in biological matrices - Environmental analysis of pollutants - Food safety analysis for detecting contaminants and additives
CI is particularly advantageous for the analysis of molecules that are difficult to ionize or that undergo extensive fragmentation under electron ionization. It is also used in tandem mass spectrometry (MS/MS) setups for structural elucidation of molecules.
Advantages and Limitations[edit | edit source]
Advantages: - Produces less fragmentation, often yielding a clear molecular ion peak - Can be used to ionize a wide range of compounds, including those with high molecular weights - Useful for samples that are sensitive to fragmentation
Limitations: - The choice of reagent gas can limit the types of ions produced, affecting the sensitivity and selectivity of the analysis - Requires careful optimization of ion source conditions - Not as widely applicable as electron ionization for general unknown screening
Comparison with Other Ionization Techniques[edit | edit source]
Chemical ionization is often compared with other ionization techniques such as Electron Ionization (EI) and Electrospray Ionization (ESI). While EI provides extensive fragmentation patterns useful for structural elucidation, CI offers a softer ionization that preserves the molecular ion. ESI, on the other hand, is more suited for polar and high molecular weight biomolecules and operates in a different mechanism involving the formation of charged droplets.
Conclusion[edit | edit source]
Chemical ionization has established itself as a valuable tool in mass spectrometry for the analysis of a wide range of compounds, particularly those that are prone to fragmentation. Its ability to provide molecular weight information with minimal fragmentation makes it an essential technique in the arsenal of analytical chemists.
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Contributors: Prab R. Tumpati, MD