Chemical structure vs excitation frequency (photons)

In summary, this text discusses how to create a meta material that can emit a particular frequency of photons. It is not clear, however, how large the region is where this emission can take place.
  • #1
rppearso
204
3
Is there a text, or set of texts, on how to predict what frequency of photon is released when a particular molecule is brought to an excited state and then relaxes?

So for example if you were to put, say, benzene into an electrical tube and excite it what frequency would be released and more importantly why?
 
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  • #3
DrClaude said:
The best is to look at spectra. A good source is the NIST Chemistry WebBook.

For instance, on the page for benzene, you will find IR and UV/Vis spectra: https://webbook.nist.gov/cgi/cbook.cgi?Name=benzene&Units=SI

So if a substance/material gives off a certain frequency does that mean that it could also lase? Is there a book of meta-materials, such as materials that can accept one frequency to put electrons into an excited state but give off a different photon when the electrons drop back down?
 
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  • #4
rppearso said:
So if a substance/material gives off a certain frequency does that mean that it could also lase?
Not necessarily. Many substances can be made to lase, but you not necessarily at any frequency where transitions can occur.

rppearso said:
Is there a book of meta-materials, such as materials that can accept one frequency to put electrons into an excited state but give off a different photon when the electrons drop back down?
It is not clear for me what you are after. Maybe if you look up chemical dye lasers you will find something.
 
  • #5
DrClaude said:
Not necessarily. Many substances can be made to lase, but you not necessarily at any frequency where transitions can occur.It is not clear for me what you are after. Maybe if you look up chemical dye lasers you will find something.



About mid way through it states there are materials where you can put in one energy and get out another energy. Thus it seems to me with such a material you could in effect pump this material with an easy to attain energy/frequency and get back a more difficult to attain frequency energy?

But the big question is how big is that meta stable region (what frequencies/energies will it accept) in order to give off the desired frequency?

I am currently taking a course in solid state electronic devices and plan to take a course in quantum mechanics next semester to help me figure this stuff out.
 

What is the relationship between chemical structure and excitation frequency?

The chemical structure of a molecule determines its electronic energy levels, which in turn affect the excitation frequency of photons that can be absorbed by the molecule.

How does the excitation frequency of photons affect chemical reactions?

The excitation frequency of photons can determine the energy required for a chemical reaction to occur. If the energy of the photons matches the energy needed for a reaction, it can lead to the formation of new chemical bonds.

Can changes in chemical structure affect the excitation frequency of a molecule?

Yes, changes in the chemical structure of a molecule can alter its electronic energy levels and therefore change the excitation frequency of photons that can be absorbed by the molecule.

What is the significance of understanding the relationship between chemical structure and excitation frequency?

Understanding the relationship between chemical structure and excitation frequency is important in fields such as pharmaceuticals and materials science, as it can help predict and control the behavior of molecules in various applications.

Are there any limitations to using excitation frequency to study chemical structure?

While excitation frequency can provide valuable information about the electronic structure of a molecule, it is not the only factor that influences chemical reactions. Other factors such as temperature and pressure also play a role and should be considered in conjunction with excitation frequency.

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