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Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments

At its simplest, mass spectrometry (MS) is a technique for measuring the mass, and therefore the molecular weight (MW), of a molecule. In addition, it’s often possible to gain structural information about a molecule by measuring the masses of the fragments produced when molecules are broken apart.

More than 20 different kinds of commercial mass spectrometers are available depending on the intended application, but all have three basic parts: an ionization source in which sample molecules are given an electrical charge, a mass analyzer in which ions are separated by their mass-to-charge ratio, and a detector in which the separated ions are observed and counted.
Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | Chemistry Optional Notes for UPSC

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Among the most common mass spectrometers used for routine purposes in the laboratory is the electron-impact, magnetic-sector instrument shown schematically in Figure 12.2. A small amount of sample is vaporized into the ionization source, where it is bombarded by a stream of high-energy electrons. The energy of the electron beam can be varied but is commonly around 70 electron volts (eV), or 6700 kJ/mol. When a high-energy electron strikes an organic molecule, it dislodges a valence electron from the molecule, producing a cation radical—cation because the molecule has lost an electron and now has a positive charge; radical because the molecule now has an odd number of electrons.
Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | Chemistry Optional Notes for UPSC

Electron bombardment transfers so much energy that most of the cation radicals fragment after formation. They break apart into smaller pieces, some of which retain the positive charge and some of which are neutral. The fragments then flow through a curved pipe in a strong magnetic field, which deflects them into different paths according to their mass-to-charge ratio (m/z). Neutral fragments are not deflected by the magnetic field and are lost on the walls of the pipe, but positively charged fragments are sorted by the mass spectrometer onto a detector, which records them as peaks at the various m/z ratios. Since the number of charges z on each ion is usually 1, the value of m/z for each ion is simply its mass m. Masses up to approximately 2500 atomic mass units (amu) can be analyzed by this type of instrument.
Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | Chemistry Optional Notes for UPSC

Figure 12.2: Representation of an electron-ionization, magnetic-sector mass spectrometer. Molecules are ionized by collision with high-energy electrons, causing some of the molecules to fragment. Passage of the charged fragments through a magnetic field then sorts them according to their mass.

Another common type of mass spectrometer uses what is called a quadrupole mass analyzer, which has a set of four solid rods is arranged parallel to the direction of the ion beam, with an oscillating electrostatic field is generated in the space between the rods. For a given field, only one m/z value will make it through the quadrupole region. The others will crash into the rods or the walls of the instrument and never reach the detector Figure 12.3.
Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | Chemistry Optional Notes for UPSC

The mass spectrum of a compound is typically presented as a bar graph, with masses (m/z values) on the x axis and intensity, or relative abundance of ions of a given m/z striking the detector, on the y axis. The tallest peak, assigned an intensity of 100%, is called the base peak, and the peak that corresponds to the unfragmented cation radical is called the parent peak, or the molecular ion (M+, or simply M). Figure 12.4 shows the mass spectrum of propane.
Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | Chemistry Optional Notes for UPSC

Mass spectral fragmentation patterns are usually complex, and the molecular ion is often not the base peak. The mass spectrum of propane in Figure 12.4, for instance, shows a molecular ion at m/z = 44 that is only about 30% as high as the base peak at m/z = 29. In addition, many other fragment ions are present.

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The document Mass Spectrometry of Small Molecules - Magnetic-Sector Instruments | 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 Small Molecules - Magnetic-Sector Instruments - Chemistry Optional Notes for UPSC

1. What is mass spectrometry and how is it used for small molecules?
Ans. Mass spectrometry is a technique used to measure the mass-to-charge ratio of ions. In the context of small molecules, it is an analytical tool that helps identify and analyze the molecular composition of compounds. By ionizing the small molecules and subjecting them to magnetic fields, mass spectrometry can accurately determine their mass and structural information.
2. What are magnetic-sector instruments in mass spectrometry?
Ans. Magnetic-sector instruments are a type of mass spectrometry instrument that use magnetic fields to separate and analyze ions based on their mass-to-charge ratio. These instruments consist of a source where the sample is ionized, a magnet that deflects the ions based on their mass, and a detector that measures the deflected ions. Magnetic-sector instruments offer high resolution and accuracy in determining the mass of small molecules.
3. How do magnetic-sector instruments work in mass spectrometry?
Ans. Magnetic-sector instruments work by ionizing the small molecules in the sample, creating positively charged ions. These ions are then accelerated and sent through a magnetic field. The magnetic field deflects the ions based on their mass-to-charge ratio, causing ions with different masses to follow different paths. Finally, the ions reach a detector where their positions are recorded, allowing for the determination of their masses.
4. What are the advantages of using magnetic-sector instruments in mass spectrometry?
Ans. Magnetic-sector instruments offer several advantages in mass spectrometry. They provide high resolution, allowing for accurate determination of the mass of small molecules. They also have a wide mass range, enabling the analysis of a broad range of compounds. Additionally, magnetic-sector instruments are highly reproducible and can be used for both qualitative and quantitative analysis.
5. What are some applications of magnetic-sector instruments in mass spectrometry?
Ans. Magnetic-sector instruments find applications in various fields. They are used in drug discovery and development to determine the mass and structure of small molecule drugs. They are also employed in environmental analysis to identify and quantify pollutants. Additionally, magnetic-sector instruments play a crucial role in forensic analysis, food safety testing, and metabolomics research, among other areas where the analysis of small molecules is important.
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