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Xrpdguy
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biggrin.gif posted on 8-1-2020 at 13:07
Microwave inducted synthesis

Hello, there I am very interested in technochemistry especially the microwave.
For every synthesis, I have used a microwave reactor but never a domestic one. Now I am curious about a few things: Why the reaction vessel needs to be at the center of the rotation plate? and Why should I use 250 ml Erlenmeyer even I have just about 5 ml of the reaction mixture as described in some scientific paperwork?
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B.D.E
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[*] posted on 9-1-2020 at 23:34


Quote: Originally posted by Xrpdguy  
...Why the reaction vessel needs to be at the center of the rotation plate?...

Hey, I am too interested in microwave chemistry, and I think I might answer your first question.

(Disclaimer - this explanation based mostly on my intuition)

First watch this video by nilered(watch from t=9:12 to t=10:39):
https://www.youtube.com/watch?v=l0u8Vtf2GoQ&t=35s

As you can see, microwaves form "hot spots" and "cold spots"(explained in the video).
If the reaction vessel is in the middle of the rotating plate, than the axis of rotation of the vessel will be in the middle of the vessel. This allow for a more even exposure to any hot/cold spots due to symmetry.

Keep in mind that even when the reaction vessel is in the middle, the exposure still won't be perfectly even. it will merely be better compared to not putting it in the middle.

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[Edited on 10-1-2020 by B.D.E]
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Xrpdguy
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[*] posted on 10-1-2020 at 00:10


I see, but also my area of interest are Ionic liquids. So when I put a vial with BMIM for example in the center of the rotation plate it needs much more time to get hot than when I place it at the side.
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[*] posted on 10-1-2020 at 02:30


Quote: Originally posted by Xrpdguy  
I see, but also my area of interest are Ionic liquids. So when I put a vial with BMIM for example in the center of the rotation plate it needs much more time to get hot than when I place it at the side.

It is possible that your microwave produce more "hot-spots" in the peripheral areas rather than in the center.

Putting your vessel in the center merely mean that it would be exposed more evenly to the radiation. It doesn't necessarily mean that it would be exposed to more radiation.

Maybe there's another explanation for putting the vessel in the center. Maybe it's just more convenient. For instance if the researchers were to check the repeatability of the experiment, the simplest way of doing it is to always place the vessel in the center of the microwave.

Those are at least my ideas :)

[Edited on 10-1-2020 by B.D.E]
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Xrpdguy
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[*] posted on 10-1-2020 at 12:42


Quote: Originally posted by B.D.E  
Quote: Originally posted by Xrpdguy  
I see, but also my area of interest are Ionic liquids. So when I put a vial with BMIM for example in the center of the rotation plate it needs much more time to get hot than when I place it at the side.

It is possible that your microwave produce more "hot-spots" in the peripheral areas rather than in the center.

Putting your vessel in the center merely mean that it would be exposed more evenly to the radiation. It doesn't necessarily mean that it would be exposed to more radiation.

Maybe there's another explanation for putting the vessel in the center. Maybe it's just more convenient. For instance if the researchers were to check the repeatability of the experiment, the simplest way of doing it is to always place the vessel in the center of the microwave.

Those are at least my ideas :)

[Edited on 10-1-2020 by B.D.E]

More hotspots? I don't think so, its just domestic one (850W max power, mono mode).
In the meanwhile, I made an experiment with a quartz cuvette (because it's totally transparent to microwaves). It took less time (few minutes) to heat the water when I put a cuvette at the side than to place it in the middle.

Anyway, do you know why should I use the huge vessel for a small volume of reactants? Somewhere on the internet, I found it's because hazardous explosions, but if something is dangerous to heat in the microwave it will destroy no matter how big vessel is.
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[*] posted on 10-1-2020 at 14:50


Quote: Originally posted by Xrpdguy  

More hotspots? I don't think so, its just domestic one (850W max power, mono mode).
In the meanwhile, I made an experiment with a quartz cuvette (because it's totally transparent to microwaves). It took less time (few minutes) to heat the water when I put a cuvette at the side than to place it in the middle.

I meant that maybe your microwave produce more hotspots in the sides compared to in the center.
Quote: Originally posted by Xrpdguy  
Anyway, do you know why should I use the huge vessel for a small volume of reactants? Somewhere on the internet, I found it's because hazardous explosions, but if something is dangerous to heat in the microwave it will destroy no matter how big vessel is.

I really don't know.. The only guess I have is to delay pressure build-up inside the vessel in case it's a close system. If you were to heat 15ml in a close 20ml vial than I can see why it might be a problem. But I don't see a reason to use "huge" vessel..
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[*] posted on 11-1-2020 at 08:36


https://www.youtube.com/watch?v=qvpK2Ie1pl0
Microwave inducted synthesis of phthalocyanine blue by U235



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[*] posted on 12-1-2020 at 12:53


Quote: Originally posted by rockyit98  
https://www.youtube.com/watch?v=qvpK2Ie1pl0
Microwave induced synthesis of phthalocyanine blue by U235

This looks great. A great example of "dry" synthesis, especially because of making macromolecule.

If we talk about dyes my idea was to use pyrrole and p-nitrobenzaldehyde by using nitrobenzene as a solvent to make 5,10,15,20-tetrakis(4-
nitrophenyl)porphyrin and later complex it with some metal. The reaction will be inducted by microwave (about 650W max power).

I am still not sure about the formula of the last compound and how metal is connected with nitrogen atoms. Can anyone help?



[Edited on 12-1-2020 by Xrpdguy]

[Edited on 12-1-2020 by Xrpdguy]

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