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Infrared Spectroscopy

In infrared (IR) spectroscopy, the IR region of the electromagnetic spectrum covers the range from just above the visible (7.8 × 10–7 m) to approximately 10–4 m, but only the midportion from 2.5 × 10–6 m to 2.5 × 10–5 m is used by organic chemists (Figure 12.20. Wavelengths within the IR region are usually given in micrometers (1 μm = 10–6 m), and frequencies are given in wavenumbers rather than in hertz. The wavenumber v˜ is the reciprocal of wavelength in centimeters and is therefore expressed in units of cm–1.
Infrared Spectroscopy | Chemistry Optional Notes for UPSC
Thus, the useful IR region is from 4000 to 400 cm–1, corresponding to energies of 48.0 kJ/mol to 4.80 kJ/mol (11.5–1.15 kcal/mol).
Infrared Spectroscopy | Chemistry Optional Notes for UPSC
Why does an organic molecule absorb some wavelengths of IR radiation but not others? All molecules have a certain amount of energy and are in constant motion. Their bonds stretch and contract, atoms wag back and forth, and other molecular vibrations occur. Some of the kinds of allowed vibrations are shown below:
Infrared Spectroscopy | Chemistry Optional Notes for UPSC

Question for Infrared Spectroscopy
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Why does an organic molecule absorb some wavelengths of IR radiation but not others?
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The amount of energy a molecule contains is not continuously variable but is quantized. That is, a molecule can stretch or bend only at specific frequencies corresponding to specific energy levels. Take bond stretching, for example. Although we usually speak of bond lengths as if they were fixed, the numbers given are really averages. In fact, a typical C–H bond with an average bond length of 110 pm is actually vibrating at a specific frequency, alternately stretching and contracting as if there were a spring connecting the two atoms.

When a molecule is irradiated with electromagnetic radiation, energy is absorbed if the frequency of the radiation matches the frequency of the vibration. The result of this energy absorption is an increased amplitude for the vibration; in other words, the “spring” connecting the two atoms stretches and compresses a bit further. Since each frequency absorbed by a molecule corresponds to a specific molecular motion, we can find what kinds of motions a molecule has by measuring its IR spectrum. By interpreting these motions, we can find out what kinds of bonds (functional groups) are present in the molecule.

Question for Infrared Spectroscopy
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What happens when a molecule is irradiated with electromagnetic radiation?
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FAQs on Infrared Spectroscopy - Chemistry Optional Notes for UPSC

1. What is infrared spectroscopy and how is it used?
Ans. Infrared spectroscopy is a technique used to analyze the chemical composition of a substance by measuring the absorption of infrared radiation. It is commonly used in various fields such as chemistry, pharmaceuticals, and forensics to identify and characterize different molecules based on their unique infrared spectra.
2. What are the advantages of using infrared spectroscopy?
Ans. Infrared spectroscopy offers several advantages, including non-destructive analysis, high sensitivity, and the ability to provide molecular structural information. It is a versatile technique that can be used to analyze both organic and inorganic compounds, making it an essential tool in research and analysis.
3. How does infrared spectroscopy work?
Ans. Infrared spectroscopy works by passing infrared radiation through a sample and measuring the absorption of this radiation by the sample. The absorption pattern is unique to each compound and provides information about the functional groups and chemical bonds present in the molecule. By comparing the sample's absorption spectrum to a library of known spectra, the compound can be identified.
4. What are the limitations of infrared spectroscopy?
Ans. While infrared spectroscopy is a powerful analytical technique, it does have some limitations. It cannot determine the exact arrangement of atoms within a molecule, and overlapping absorption bands can make interpretation challenging. Additionally, some compounds may not exhibit strong infrared absorption, limiting the technique's applicability in certain cases.
5. How is infrared spectroscopy used in the field of pharmaceuticals?
Ans. In the pharmaceutical industry, infrared spectroscopy is used for various purposes. It can be used to identify and confirm the presence of active pharmaceutical ingredients (APIs) in drug formulations, ensuring product quality and consistency. It is also employed in the analysis of drug stability, helping to understand degradation processes and optimize storage conditions. Moreover, infrared spectroscopy aids in the characterization of polymorphic forms of drugs, which can impact their bioavailability and efficacy.
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