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Author: Subject: ethanol self-condensation
teodor
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[*] posted on 17-7-2023 at 03:35
ethanol self-condensation


There is a popular method of ethanol purification by reflux with alkali (KOH/NaOH) and distillation which cause self-condensation of ketones etc.
Usually after this process the residue has a deep brown color of condensation products. But I found that after keeping this residue (10% in KOH by mass) several monthes and distilling-off ethanol (in vacuum) new addition of KOH/keeping overnight at room temperature makes the vacuum-distilled ethanol yellow/brown again.
So, it looks like there is some self-condensation of EtOH but I didn't find any information about that.
What is the reaction?
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[*] posted on 17-7-2023 at 08:58


That orange stuff also happens in ethanol base-baths.



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[*] posted on 17-7-2023 at 10:02


I believe that the first step is something to the effect of:

EtO- + O2 >> EtO3- >> HO2- + AcH

You can probably guess what might come next.




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[*] posted on 18-7-2023 at 02:31


Quote: Originally posted by clearly_not_atara  
I believe that the first step is something to the effect of:

EtO- + O2 >> EtO3- >> HO2- + AcH

You can probably guess what might come next.


HO2- + AcH -> AcOH + OH-

AcOH + OH- -> AcO- + H2O

Perhaps something like this? Also is HO2- a stable species? I couldn't find much about the conjugate base of hydrogen peroxide, just the HO2. radical.
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[*] posted on 18-7-2023 at 04:39


Clearly_not_atara, this hypothesis is quite logical but lacks an experimental evidence: when I put Na2SO3 together with KOH it doesn't inhibit the reaction but even I observe the color change to yellow faster. Also, my base bath looks like the reaction stops after some saturation: the liquid doesn't turn darker with time.
But also my experiment with sulfite and assumptions could be wrong.
The process goes only at high alkali concentration, most readily when you have undissolved KOH. If I dissolve the same amount of alkali the change of color doesn't occure. It looks like the reaction proceeds more rapidly near the surface of KOH.

Update. Oh, I see what could be wrong in my experiment. Sodium sulfite doesn't dissolve in ethanol. Have to find another reducer.

[Edited on 18-7-2023 by teodor]
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[*] posted on 18-7-2023 at 05:54


Scavenging oxygen with sulfite is likely to be difficult because sulfite does not react that much more quickly (if at all) than ethoxide. You might be able to generate an inert atmosphere by scrubbing with bisulfite before forming the ethoxide, but it sounds like a complicated setup. Easier would be to use a nitrogen atmosphere.

Ethoxide is most commonly made using Na metal which acts as a very strong oxygen scavenger and generates a briefly stable solution.

More efficient from a practical perspective is to rapidly precipitate the ethoxide by adding acetone so that it can be stored as a solid and used when needed.
Quote:
HO2- + AcH -> AcOH + OH-

AcOH + OH- -> AcO- + H2O

Perhaps something like this? Also is HO2- a stable species?

HO2- is more likely to react with the ethanol present than to attack the very small amount of acetaldehyde that exists at equilibrium. Acetaldehyde likewise will interact with ethoxide by aldol condensation rather than immediately undergoing a BV.




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[*] posted on 18-7-2023 at 13:02


Quote: Originally posted by kmno4  
Detritus.
Uh, no... Not your call, and this is a worthwhile discussion. The paper you linked is interesting in its own right, but not really relevant since we are talking about the interaction of sodium ethoxide with ethanol and its decomposition in solution, while the paper discusses decomposition of solid sodium alkoxides in air. These are not equivalent processes. Being in solution in ethanol clearly leads to some weird things that can't be explained by simple hydrolysis or absorption of CO2. Note that even the commercial NaOEt in the picture in the paper you linked is yellowish, while the NaOMe is pure white.

Air-oxidation of ethoxide to acetaldehyde followed by aldol condensation with itself, as atara suggests, sounds quite plausible. This is an option that isn't available for methoxide, which would explain the lack of discoloration seen for NaOMe.




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[*] posted on 18-7-2023 at 14:57


Quote:
(...) we are talking about the interaction of sodium ethoxide with ethanol and its decomposition in solution, while the paper discusses (...)

No.
You are talking abot something getting brown. EtOH p.a. and better does not change its coloration with KOH/NaOH. There is nothing to discuss about.




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[*] posted on 18-7-2023 at 15:09


Quote: Originally posted by kmno4  
Quote:
(...) we are talking about the interaction of sodium ethoxide with ethanol and its decomposition in solution, while the paper discusses (...)

No.
You are talking abot something getting brown. EtOH p.a. and better does not change its coloration with KOH/NaOH. There is nothing to discuss about.

Have you ever worked with basic ethanol? It does indeed turn orange/brown on long exposure to air.




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[*] posted on 18-7-2023 at 23:46


I see, EtO- is an ionized form. So, the oxidation speed should be dependent on ion concentration. I am thinking how to demonstrate that.
The point of my post is that there is a common belief that the yellow color in ethanol + alkali is because of ethanol impurities, but I think it is not impurities, the process goes with pure ethanol as well.
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[*] posted on 19-7-2023 at 04:38


Quote: Originally posted by kmno4  
You are talking abot something getting brown. EtOH p.a. and better does not change its coloration with KOH/NaOH. There is nothing to discuss about.
Is that so? How much do you want to bet on that? I’ll test that claim today.



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[*] posted on 19-7-2023 at 07:56


I have some ketone free EtOH (denaturated with heptane, Et3N and denatonium benzoate, so this shouldn't interfer). So I can do some experiments this weekend - I'll prepare NaOH solution in EtOH, one part of solution will be stored under nitrogen, second part under air and lets see what will happen.
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[*] posted on 19-7-2023 at 08:03


I already have some ACS grade KOH sitting in USP grade absolute ethanol on my bench. We’ll see how it’s looking tomorrow.

ADE507C5-D260-4ACA-B84A-ECB5F16FDF7D.jpeg - 2.9MB




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[*] posted on 19-7-2023 at 20:46


Quote: Originally posted by kmno4  
No.
You are talking abot something getting brown. EtOH p.a. and better does not change its coloration with KOH/NaOH. There is nothing to discuss about.

The paper you referenced contains a picture of sodium ethoxide in a jar. It is tan. Did you read it?

Attached, for reference.

IMG_3764.jpeg - 466kB




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[*] posted on 20-7-2023 at 07:48


Well, would you look at that, 24 hours later, it’s yellow.

4DB46073-606F-4770-AEAE-1861BC4F497B.jpeg - 2.7MB

Care to comment, kmno4?




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[*] posted on 20-7-2023 at 08:47


I'm actually surprised the colour change was noticeable after only one day. Leave it exposed to air, and we'll see how long it takes to turn orange.

[Edited on 20-7-2023 by DraconicAcid]




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[*] posted on 20-7-2023 at 17:45
Search the Literature!


Perhaps the attached paper will provide the insight to reach an answer. It is amazing what one can find by search a bit - like 10 minutes.

AvB

Attachment: STABILIZATION OF THE ALCOHOLIC POTASSIUM HYDROXIDE.pdf (397kB)
This file has been downloaded 242 times

[Edited on 21-7-2023 by AvBaeyer]
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[*] posted on 21-7-2023 at 07:29


Thanks, AvB. Yes, searching the literature is generally a great idea. Nothing wrong with running an easy experiment (which took me far less than 10 minutes to set up) to refute the naysayers, though. The paper you linked supports the oxidative degradation hypothesis, but doesn't give any further insight on what is actually happening to the ethanol or why this degradation occurs for ethanol but seemingly not for isopropanol. I tried searching too, but was unable to find any direct studies of the phenomenon, and I don't have time to do a more thorough search.



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[*] posted on 21-7-2023 at 13:25


Thanks for the paper, AvBaeyer.
They mention they tried hydroquinone. It's very strange, because mixing Hydroquinone, KOH and EtOH produce a yellow color _immediately_.
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[*] posted on 21-7-2023 at 23:14


I decided to check if EtOH is truly oxidized by O2 in alkaline environment to acetaldehyde. I used Schiff's reagent to test it. I have some leftover solution, which is several months old, so I firstly tested if it is ok using 5% formaldehyde. Reagent produced strong red coloration, so it's still usable.

I dissolved 2 g of NaOH in 75 ml of 95% ketone-free EtOH. I bubbled air through it for 2h. Then I added 50 ml of water and 1 ml of sample (H2O, EtOH, NaOH+EtOH) in to 3 beakers and addjusted pH to 3 using dilute H2SO4. After that I added in to each beaker 1 ml of Schiff's reagent. After 10 minutes beaker with NaOH+EtOH sample was slightly pink in colour. Colour was weak but still clearly visible. Beakers with EtOH and H2O samples were colourless.

IMG_20230722_085839.jpg - 3.9MB
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[*] posted on 22-7-2023 at 03:52


Thanks Bedlasky. Your experiment clearly proves clearly_not_atara hypothesis.
Meanwile I checked sodium dithionite, Na2S2O4. It is slightly soluble in ethanol and really can delay degradation. But it doesn't prevent it completely.
Also reaction of hydroquinone and alkali gives very similar results both by color development and by the mechanism (air oxidation), but proceed much-much faster, so I probably will use it as a test for the power of oxygen scavengers. Na2S2O4 also delays the reaction of air oxidation of alkali hydroquinone, but doesn't stop it completely.
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[*] posted on 22-7-2023 at 18:55


Thanks Bedlasky!



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[*] posted on 23-7-2023 at 00:42


I repeated experiment today, this time using more soluble KOH and 4 h reaction time. I dissolved sample only in 25 ml of water, addjusted to pH 3 with sulfuric acid and added Schiff's reagent. After few minutes nice pink colour developed in the solution.

That water blank looks yellow on the photo, but it's actually colourless in reality.

IMG_20230723_104212.jpg - 3.8MB

[Edited on 23-7-2023 by Bedlasky]
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[*] posted on 23-7-2023 at 02:49


This might be relevant

Translated version
https://www.scielo.br/j/jbchs/a/SnNtvb6zqPZpSTYr3T5STTK/?lan...
Orginal https://doi.org/10.1590/S0103-50531997000500002

Atmospheric chemistry of alcohols




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[*] posted on 11-8-2023 at 10:38


Back in February I placed some MgSO4 and freshly distilled 96% ethanol into test tubes to dry.
I dont need much each a time so I usually make a bunch of tubes (20ml), use what i need and discard the rest.

Monday, my last 2 tubes where crystal clear, today they are tented yellow.
20230811_142502.jpg - 2.1MB

MgSO4 was obtained at the pharmacy as a oral laxative, dried in a vacuum at 400c for 2 hours, it should be pure.




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