Gas Chromatography - Organic Chemistry

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Ten molecules of toluene entering a gas chromatography (GC) column simultaneously do not reach the detector at the same time due to diffusion and the statistical distribution of their velocities, leading to varying travel times. In GC, the relatively nonpolar stationary phase results in weaker interactions, allowing for more variability in molecule movement compared to thin-layer chromatography (TLC), where the polar stationary phase promotes stronger interactions. The mobile phase in GC, typically nonpolar gases like helium or argon, contrasts with the mobile phase in TLC, which can be either polar or nonpolar. The random adsorption and desorption process within the GC column further contributes to the variability in travel times. These factors collectively explain the differences in behavior of molecules in GC versus TLC.
singinglupine
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Why do ten molecules of toluene that enter a GC column at exactly the same time not reach the detector at the same time?

Why are London Dispersion forces of the sample molecules strongly influencing GC measurements? And why are they negligible in TLC experiments on silica gel?

I have no idea how to answer the first question. The second question I'm thinking deals with the fact that the stationary phase in TLC, silica gel is polar, while the stationary phase in GC is relatively non polar. So in GC there are more weak interactions, nonpolar to nonpolar and in TLC there are stronger interactions, polar-polar aka dipole-dipole interactions.
 
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singinglupine said:
Why do ten molecules of toluene that enter a GC column at exactly the same time not reach the detector at the same time?
At the very least, remember diffusion: if you drop dye into a glass of water, the dye molecules will diffuse to eventually homogeneously fill the glass of water. Same thing with toluene molecules in a GC column. They spread out based on the statistical distribution of their velocities.

singinglupine said:
The second question I'm thinking deals with the fact that the stationary phase in TLC, silica gel is polar, while the stationary phase in GC is relatively non polar. So in GC there are more weak interactions, nonpolar to nonpolar and in TLC there are stronger interactions, polar-polar aka dipole-dipole interactions.
This is a good answer. I might mention also that the mobile phase in GC is generally also nonpolar (helium or argon), whereas the mobile phase in TLC can be either polar or nonpolar.
 
What slows down the molecules in the column is the constant adsorption/desorption process. That process is random, so the time a given molecule will take to go down the column is variable.
 

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