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Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC PDF Download

Alcohols

  • Alcohols undergo fragmentation in a mass spectrometer by two pathways: alpha cleavage and dehydration. In the α-cleavage pathway, a C–C bond nearest the hydroxyl group is broken, yielding a neutral radical plus a resonance-stabilized, oxygen-containing cation. This type of fragmentation is seen in the spectrum of 2-pentanol in Figure 12.10.
    Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC
  • In the dehydration pathway, water is eliminated, yielding an alkene radical cation with a mass 18 amu less than M+. For simplicity, we have drawn the dehydration below as an E2-type process. Often the hydrogen that is lost is not beta to the hydroxyl. Only a small peak from dehydration is observed in the spectrum of 2-pentanol (Figure 12.10).
    Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Amines

  • The nitrogen rule of mass spectrometry says that a compound with an odd number of nitrogen atoms has an odd-numbered molecular weight. The logic behind the rule comes from the fact that nitrogen is trivalent, thus requiring an odd number of hydrogen atoms. The presence of nitrogen in a molecule is often detected simply by observing its mass spectrum. 
  • An odd-numbered molecular ion usually means that the unknown compound has one or three nitrogen atoms, and an even-numbered molecular ion usually means that a compound has either zero or two nitrogen atoms.
  • Aliphatic amines undergo a characteristic α cleavage in a mass spectrometer, similar to that observed for alcohols. A C–C bond nearest the nitrogen atom is broken, yielding an alkyl radical and a resonance-stabilized, nitrogen-containing cation.
    Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC
  • The mass spectrum of triethylamine has a base peak at m/z = 86, which arises from an alpha cleavage resulting in the loss of a methyl group (Figure 12.11).Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Question for Mass Spectrometry of Some Common Functional Groups
Try yourself:
In the mass spectrum of chloroethane, which peak represents ions containing a 37Cl atom?
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Halides

  • The fact that some elements have two common isotopes gives their mass spectra a distinctive appearance. Chlorine, for example, exists as two isotopes, 35Cl and 37Cl, in roughly a 3 : 1 ratio. In a sample of chloroethane, three out of four molecules contain a 35Cl atom and one out of four has a 37Cl atom. In the mass spectrum of chloroethane (Figure 12.12 we see the molecular ion (M) at m/z = 64 for ions that contain a 35Cl and another peak at m/z = 66, called the M + 2 peak, for ions containing a 37Cl. The ratio of the relative abundance of M : M + 2 is about 3 : 1, a reflection of the isotopic abundances of chlorine.
    Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC
  • In the case of bromine, the isotopic distribution is 50.7% 79Br and 49.3% 81Br. In the mass spectrum of 1-bromohexane (Figure 12.13) the molecular ion appears at m/z = 164 for 79Br-containing ions and the M + 2 peak is at m/z = 166 for 81Br-containing ions. The ions at m/z = 135 and 137 are informative as well. The two nearly equally large peaks tell us that the ions at those m/z values still contain the bromine atom. The peak at m/z = 85, on the other hand, does not contain bromine because there is not a large peak at m/z = 87.
    Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Question for Mass Spectrometry of Some Common Functional Groups
Try yourself:
What type of cleavage occurs in ketones and aldehydes that have a hydrogen three atoms away from the carbonyl group?
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Carbonyl Compounds

Ketones and aldehydes that have a hydrogen on a carbon three atoms away from the carbonyl group undergo a characteristic mass-spectral cleavage called the McLafferty rearrangement. The hydrogen atom is transferred to the carbonyl oxygen, a C–C bond between the alpha and beta carbons is broken, and a neutral alkene fragment is produced. The charge remains with the oxygen-containing fragment.

Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

In addition, ketones and aldehydes frequently undergo α cleavage of the bond between the carbonyl carbon and the neighboring carbon to yield a neutral radical and a resonance-stabilized acyl cation. Because the carbon neighboring the carbonyl carbon is called the alpha carbon, the reaction is called an alpha cleavage.
Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

(To be more general about neighboring positions in carbonyl compounds, Greek letters are used in alphabetical order: alpha, beta, gamma, delta, and so on.)
Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

The mass spectrum of butyrophenone illustrates both alpha cleavage and the McLafferty rearrangement (Figure 12.14). Alpha cleavage of the propyl substituent results in the loss of C3H7 = 43 mass units from the parent ion at m/z = 148 to give the fragment ion at m/z = 105. A McLafferty rearrangement of butyrophenone results in the loss of ethylene, C2H4 = 28 mass units, from the parent leaving the ion at m/z = 120.
Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Solved Example

Example: Identifying Fragmentation Patterns in a Mass Spectrum
The mass spectrum of 2-methyl-3-pentanol is shown in Figure 12.15. What fragments can you identify?
Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSCAns: Strategy: Calculate the mass of the molecular ion, and identify the functional groups in the molecule. Then write the fragmentation processes you might expect, and compare the masses of the resultant fragments with the peaks present in the spectrum.
Solution: 2-Methyl-3-pentanol, an open-chain alcohol, has M+ = 102 and might be expected to fragment by α cleavage and by dehydration. These processes would lead to fragment ions of m/z = 84, 73, and 59. Of the three expected fragments, dehydration is not observed (no m/z = 84 peak), but both α cleavages take place (m/z = 73, 59).
Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC

The document Mass Spectrometry of Some Common Functional Groups | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Mass Spectrometry of Some Common Functional Groups - Chemistry Optional Notes for UPSC

1. What is mass spectrometry and how is it used to analyze functional groups in organic compounds?
Ans. Mass spectrometry is a technique used to analyze the molecular structure of organic compounds by measuring the mass-to-charge ratio of ions. In the context of the given article, mass spectrometry can be used to identify and analyze the functional groups present in alcohols, amines, halides, and carbonyl compounds. This technique helps in determining the molecular formula, molecular weight, and structural information of these compounds.
2. How does mass spectrometry differentiate between different functional groups?
Ans. Mass spectrometry differentiates between different functional groups based on the fragmentation patterns observed in the mass spectrum. Each functional group tends to undergo characteristic fragmentation reactions, resulting in specific ion peaks in the spectrum. By comparing these fragmentation patterns with reference spectra or databases, it is possible to identify and distinguish between different functional groups present in the organic compounds.
3. What are some common applications of mass spectrometry in the analysis of functional groups?
Ans. Mass spectrometry has wide-ranging applications in the analysis of functional groups. It is commonly used in drug discovery and development to identify and characterize the functional groups present in pharmaceutical compounds. It is also utilized in forensic analysis to identify unknown substances and determine their functional group composition. Additionally, mass spectrometry is employed in environmental analysis, food testing, and various other fields where the identification and characterization of functional groups are crucial.
4. Can mass spectrometry provide information about the position of functional groups within a molecule?
Ans. Mass spectrometry alone cannot provide direct information about the position of functional groups within a molecule. However, by combining mass spectrometry with other techniques such as nuclear magnetic resonance (NMR) spectroscopy or infrared (IR) spectroscopy, it is possible to obtain valuable structural information, including the position of functional groups. These complementary techniques help in determining the connectivity and arrangement of atoms within the molecule, thus providing insights into the position of functional groups.
5. Are there any limitations or challenges associated with using mass spectrometry for the analysis of functional groups?
Ans. While mass spectrometry is a powerful technique for the analysis of functional groups, it does have some limitations. One limitation is that the presence of multiple functional groups in a single compound can sometimes result in complex fragmentation patterns, making the interpretation of the mass spectrum challenging. Additionally, mass spectrometry may not always provide information about the stereochemistry of the compound or the exact bonding arrangement within the functional groups. However, despite these limitations, mass spectrometry remains an invaluable tool in the identification and analysis of functional groups in organic compounds.
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