Can Vibrational Spectroscopy Reveal Combinations of Normal Modes in Molecules?

In summary, in vibrational spectroscopy, we can observe peaks related to normal modes of a molecule. However, molecules can also absorb frequencies that excite combinations of normal modes or overtones, which tend to be weaker than single mode excitation. While this is not likely in the harmonic approximation, there are techniques to observe these combinations and overtones more easily.
  • #1
Talita
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In vibrational spectroscopy we read peaks related to normal modes of a molecule.

But I just can't understand: we can have a combination of those normal modes of vibration, right? So how can I read a spectrum of a molecule if this molecule can absorb a frenquency that might excite a combination of normal modes and not a single normal mode?

Sorry if I made any english mistake.
Thank you (:
 
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  • #2
Molecules can absorb frequencies that excite combinations of normal modes, or overtones of normal modes. These absorption bands tend to be much weaker than excitation of a single normal mode. In fact, in the harmonic approximation, the probability of overtone excitation by one photon is exactly zero (google "spectroscopic selection rules" for a good overview of this). Of course, it's only an approximation, so that overtone/combination band excitation is possible, but quite weak. However, there exist techniques where these combinations and overtones can be observed more easily (e.g., by using high temperatures or nonlinear optical processes).
 
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Related to Can Vibrational Spectroscopy Reveal Combinations of Normal Modes in Molecules?

1. What is vibrational spectroscopy?

Vibrational spectroscopy is a branch of analytical chemistry that involves studying the vibrational energy of molecules. This technique is used to identify and analyze the chemical composition of a substance based on the interactions between light and the molecules' vibrational energy.

2. What are the types of vibrational spectroscopy?

There are two main types of vibrational spectroscopy: infrared spectroscopy and Raman spectroscopy. Infrared spectroscopy measures the absorption of infrared light by molecules, while Raman spectroscopy measures the scattering of light by molecules.

3. What is the principle behind vibrational spectroscopy?

The principle behind vibrational spectroscopy is that every molecule has a unique vibrational energy, which is determined by the atoms and bonds within the molecule. When light of a certain wavelength interacts with a molecule, it can cause the molecule to vibrate in a specific way, allowing for identification and analysis.

4. What are the applications of vibrational spectroscopy?

Vibrational spectroscopy has a wide range of applications in various fields. It is commonly used in pharmaceuticals, forensics, materials science, and environmental analysis. It can be used to identify unknown substances, analyze the composition of materials, and monitor chemical reactions.

5. What are the advantages of vibrational spectroscopy?

Vibrational spectroscopy has several advantages over other analytical techniques. It is non-destructive, meaning the sample does not need to be altered or destroyed for analysis. It is also highly sensitive and specific, allowing for the detection of even small amounts of a substance. Additionally, it is a relatively fast and cost-effective technique, making it widely used in many industries.

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