I'm still confused exactly the reaction mechanism behind this. I'm aware that methyl bromide is formed from the conversion of vanillin's ether into an
alcohol, but beyond that I'm confused as to what all is happening in this reaction. It would make sense to me for h2o to be involved in this reaction,
but I'm assuming that's not the case. Any smarter minds that know what's happening in this rxn would be greatly appreciated, thanks y'all.clearly_not_atara - 4-3-2020 at 17:07
Never mind, I went back and read CycloKnight's overview of this rxn. Thanks for that rxn mechanism, I wasn't aware the AlBr3 reacts with the oxide in
that manner.
[Edited on 5-3-2020 by DrIronic101]Tsjerk - 5-3-2020 at 02:06
Couldn't this be used to do an one pot synthesis of the methylenedioxide aldehyde? First add an amount of aluminum bromide, then add dibromomethane
and some NaOH.
Does the demethylation run in DCM? njl - 5-3-2020 at 04:48
@Tsjerk there are a few procedures in the rhodium archive using AlX3 in pyridine. I think they demethylated both vanillin and eugenol.Tsjerk - 5-3-2020 at 05:21
The demethylation is easy, the dimethylation is well described as well. An one pot reaction would be interesting.
If the first reaction runs in DCM there wouldn't even be a need for dibromomethane. Just dump vanille in DCM, add some aluminum bromide, reflux, add
NaOH in water, reflux, have your second ring.
[Edited on 5-3-2020 by Tsjerk]njl - 5-3-2020 at 05:28
@Tsjerk sorry I misunderstood what you said. I have a little experience with the demethylation/methylenation with DCM. You may be on to something with
running the reaction in DCM. I think pyridine is needed as a proton sponge to push the reaction forward. What is the purpose of NaOH? To destroy the
AlBr3? I would think the tribromide could be recovered to some extent.clearly_not_atara - 5-3-2020 at 06:34
Tsjerk: the rxn conditions are very acidic; aluminum "esters" are not very good nucleophiles. You might be able to do a one-pot if you add
dihalomethane after all the MeBr boils away and basify somehow, but it's not plug-and-chug. brubei - 5-3-2020 at 12:57
Couldn't this be used to do an one pot synthesis of the methylenedioxide aldehyde? First add an amount of aluminum bromide, then add dibromomethane
and some NaOH.
I tryed once to do it with eugenol....a real mess..i used to generate aluminium iodine insitu with iodine and aluminium powder...
You stay with a unfiltrable cake...really big mess. Off curse, i suppose i may have better result if i try and try...I tryed once and let it down.
Chemplayer did a nice video if i remember, but cant find the video.clearly_not_atara - 19-3-2020 at 08:59
chemistry007: The best method found by CycloKnight uses Al + Br2 in toluene with a slight excess of Br to generate o/p-bromotoluene in situ as a
cosolvent, which improves the solubility of the reactants. This system seems to improve yields significantly.
Tsjerk: According to the famous catechol methylenation paper by Bonthrone and Cornforth, you want a highly dipolar aprotic solvent to encourage the
reaction with DCM and limit its volatility. DMF or DMSO are preferred; propylene carbonate may be a good OTC substitute. But this is rather different
from the demethylation system.
[Edited on 19-3-2020 by clearly_not_atara]chemistry007 - 21-3-2020 at 00:02
I check in litterature...best yield 99% ( dont really belive, but it's what they say), is AlI3, in MeCN and pyridine...clearly_not_atara - 21-3-2020 at 09:39
The literature is not wrong, but nobody bothers making acetonitrile and pyridine for this rxn. I'd imagine that if you're having trouble making
aluminium iodide, distilling pyridine might be a problem.
The bromotoluene method is the best practical technique we know of. chemistry007 - 21-3-2020 at 10:09
The matter was not to making aluminium iodine, but the cacke after that was very messy and i didnt try this methode in litterature, i think it was
some thing that i found from internet. But i think it can be better to work with the bromotoluene, if it works and is not messy...clearly_not_atara - 29-3-2020 at 10:47
chemistry007: It's very important to read the reports by people who actually do the experiments, because key technical details which may be mentioned
only briefly in papers will be emphasized by posters here (and elsewhere).
For example, in the demethylation of eugenol, using an inert atmosphere is extremely important to obtain a good yield, as CycloKnight's tests showed.
This might be just two words ("under nitrogen") in the experimental details of a paper because chemists in professional labs can easily take such
precautions, but amateurs will avoid difficulty whenever possible and thereby find out exactly what protective measures are most important.
When I first replied to you, I remembered that CycloKnight had found a method that worked, but I didn't remember offhand exactly why. Use the search
engine.
