A attempt at Halfapint's dimethylsulfate synthesis..

Thanks for the advice 12AX7, but I'll simply buy some next time. It's dirt cheap. I just didn't want to wait for it to arrive.
BTW, 53% isn't fuming nitric, it's totally clear, and costs 4E a liter at the local hardware store

Concerning the synthesis, I've ran into a problem.
An attempt at transfering the dark mixture with a canula to a 500mL still was fruitless as the canula got clogged up even though the solution had completly decanted. So, using as much precautions as possible (Clothing, googles, rubber gloves under neoprene gloves, gas mask for organic and inorganic vapors, strong draught, etc), the dark green/black mixture was decanted, the settled solids washed with 2x50mL MeOH, opening the flask as little as possible. Everything comming in contact with the fluid was immeditaly and thoroughly washed with 5% NH4OH which took a blue color from the Cu salts.
The MeOH was then distilled with a short vigreux, with a 10% NaOH wash bottle follwed by a 5% NH3 wash bottled connected to the vacuum inlet. A decent amount of bubbling accured until the vapors reached the condenser; then calmed down. At one point, when ~120mL of MeOh had been recovered, the thick syrupy fluid started boiling pretty vigorously, even when the mantle was removed and a cold water bath applied, alot of bubbling accured, and a white fog appeared in the NH3 wash bottle (HCl?). Once everyhting had cooled down, the receiver was detached, a brownish fog appearing in the flask. It was transfered to a brown bottle for neutralisation.
The wash bottles were deconnected, and vacuum applied, the MeOH distilled, and the residue started getting thicker and thicker, and then suddenly set into a thick greenish mass, with no more apparent liquid inside.

I'm thinking of adding some wtaer to try and dissolve the salts and see if any organic seperates. When water was added to the MeOH recovere dunder vacuum (~20mL), a very small amount of orgnaic liquid seemed to seperate, adding 5% NH4OH caused a white fog, and some heating up.

Halfapint simply mentions that a skin had appeared when most of the MeOH had been removed. I'm not sure what could have gone wrong.. Too much MeOH used?

I'm not sure I'm going to pursue in this direction, I'd rather try the TMP synth. I must admit I was scared shitless during the transfert and opening the distn setup, even with my protection. I took two showers, and changed gloves very regularily.

If anyone has suggestions, please speak up. I'm scared the CuCl will not dissolve in water, and I'm not sure if HCl would hydrolyse and formed DMS.

I guess making SO2Cl2 before hand an reacting that with MeOH might be more efficient, but that kind of hardcore chemistry isn't my thing. The activated carbon/Cl2/SO2 could be worth a try.

EDIT: Adding water caused some of the mass to dissolve in a greenish-blue solution. Very few oily droplets floated on the surface, probably some grease from the joints. No orgnaic layer athe bottom whatsoever. I neutralised everything with ammonia, chucked the blue washes in the dump jerrican, and all the setup in the base bath. I'm now scrubbing evrything out. This is something I'm not doing again.
I would like to know what failed though, and how come halfapint and antibody manadged to distill anything once the MeOH has been removed.
Next week I'm taking the P2O5 out.

[Edited on 2-12-2007 by Klute]

Oh, something else I was going to add: to the best of my knowledge, copper is blue in dilute solution. I don't know that sulfate is much of a ligand; chloride isn't either, but better nonetheless it seems. Any copper salt added to a strong chloride solution (HCl, NaCl, etc.) turns green, while any green copper solution (e.g., concentrated CuCl2) will turn blue on dilution. CuCl2.2H2O is also light blue when dry, a quite remarkable transformation from the deep green solution that produced it, and an even more dramatic change from CuCl2(anh.).

Nitric at the hardware store, BASTARD!

Tim

Great synthesis, if you have a vacuum pumpe., yes, I should really buy one.
But what´s the problem with the NaNSO4 synthesis, why isn´t it online anymore?

Are you talking of vacuum distilling a mixture of MeOH with a large excess of conc. H2SO4?
Unfortunaly, I've only heard about failure/terribles yields using this method, and was more interested in trying out what at first seemed to be a pretty easy/accesble synth for DMS. For my methylations needs, I have some MeI at hand, and I guess I will rather try out Halfapint's MeOH/P2O5 pyrolysis for Trimethylphosphate before the "classsical" DMS run. Also, I would prefer working with TMP for safety reasons, I'm still scared shitless when using MeI...
But it's not something I rull out, as conc. H2SO4 is much cheaper than phosphorus pentoxide. With 1mole of P2O5 (140g), Halfapint obtained roughly 45mL IIRC, by following US 2410118 (here)

Here is a link to his report (a the bottom of the page): Trimethyl Phosphate Alkylation of Phenolic Aldehydes

So if I can't obtain better yields than him, or don't consider TMP as efficient as either MeI or DMS (never used TMP for methylations before), I will surely give it a try, and of course report back. I would obviously be very interested if anyone else gave it a try, having a long to-do's list actually

Also, I've been very interested in your SO3 synthesis from peroxodisulfates, even if the yields is low, this could be a better way of producing small amounts of DMS through oleum, for the more delicate methylations. If I understood correctly, using 96% H2SO4 could actually give out oleum simply when the water present reacts with some SO3. Or would it be more adviseable to isolate the SO3, roughly weighing it, and adding it to a specific amout of conc. H2So4 to get a known-amount of oleum?

PS:

I remember a procedure in Vogels for this. I was quite surprised myself. But I don't think I would use SOCl2 even if I had some on making DMS .



[Edited on 6-1-2008 by Klute]

I have no personal basis for contributing to this thread, just this item I noted
related in Fownes Manual of Chemistry Theoretical & Practical
http://books.google.com/books/pdf/Fownes__Manual_of_Chemistr...

which I summarized with comments here , it's from 1878 so you know it's good
--
From page 560 _
Methylsulfuric acid is prepared by 1 part ( weight ) Methyl alcohol slowly mixed
with 2 parts of concentrated Sulfuric acid, and the whole is heated to boiling,
( slowly indeed , one assumes it's the acid that's added to the alcohol ) and
left to cool, after which it is diluted with water, and neutralized with Barium
carbonate. The solution is filtered from the insoluble sulfate, and evaporated,
first in a water bath ( warmed ) and afterwards in a vacuum to the proper
degree of concentration. ( pray tell what ) The salt crystallizes in beatiful,
square, colorless tables, ( flakes ) containing (CH3)2Ba(SO4)2.2H2O, which
effloresce ( crystallize ) in dry air, and are very soluble in water.
By exactly precipitating the metal sulfate from this substance with dilute sulfuric
acid, and leaving the filtered liquid to evaporate in air, Methylsulfuric acid may be
procured in the form of a sour, ( DO NOT TASTE ) syrupy liquid, or in minute
acicular ( needle shaped ) crystals, very soluble in water and alcohol. It is very
instable, being easily decomposed by heat.
Potassium Methysulfate, CH3KSO4 crystallizes in small, nacreous ( iridescent )
deliquescent rhombic tables. The lead salt is very soluble.

DiMethylsulfate (CH3)2SO4 is prepared by distilling 1 part of Methyl alcohol with
8 or 10 parts of strong Sulfuric acid: ( i.e. able to burn holes in shoe leather )
the distillation may be carried nearly to dryness. The oleaginous ( oily ) liquid
found in the receiver is agitated with water, and purified by rectification ( distilled )
from powdered anhydrous baryta ( BaO ). The product is a colorless, oily liquid,
of alliaceous odor ( garlic pew ), having a density of 1.324, and boiling at 188 ºC
( 370 ºF ). It has neutral pH, and is insoluble in water, but decomposed by it,
slowly in the cold, rapidly and with violence at boiling, into Methylsulfuric acid
and Methyl alcohol. Anhydrous lime and baryta ( CaO , BaO ) have no action on
it, their hydrates however, and those of Potassium and Sodium, decompose it
instantly, with production of the Methylsulfate salt and Methyl alcohol. When
this Methylsulfate salt is heated with common salt, it yields Sodium sulfate and
Methyl chloride. With Mercuric cyanide, or Potassium cyanide, it forms the
Sulfate salt and Methyl cyanide. With dry formate, it yields Sodium sulfate and
Methyl formate.

Methyl Sulfite (CH3)2SO3 formed by the action of Sulfur dichloride S2Cl2, on
Methyl alcohol, as a fragrant liquid ( that can't be good for you ) having a
density of 1.045 and boiling at 121 ºC ( 250 ºF )

Methyl Sulfonic acid etc.

_____________________


Ethylsulfuric acid is prepared as is Methylsulfuric acid above , it can instead be -

From page 573 _
- " neutralized with chalk, whereby much calcium sulfate is produced. The mass
is placed upon a cloth filter, drained , and pressed; and the clear solution is
evaporated to a small bulk by the heat of a water bath, filtered from a little
sulfate, and left to crystalize.
The product is Calcium Ethylsulfate in beautiful colorless, transparent crystals,
containing Ca(C2H5)2(SO4)2.2H2O. These dissolve in an equal weight of water,
and effloresce in a dry -?- bulk.
It is annoying that Google has gone to the trouble of copying books as this
and it is done so sloppily that much of it is out of focus and illegible.
Given the nature of these reagents it's possible it was deliberate though it
doesn't really matter as it's available in many libraries search worldcat
http://www.worldcatlibraries.org
Barium Ethylsulfate, equally soluble and still more beautiful may be produced by
substituting Barium Carbonate for the chalk. From this salt the acid may be
procured by exactly precipitating the metal sulfate with dilute sulfuric acid, and
evaporating the filtered solution in a vacuum at the temperature of air. It forms
a sour ( REALLY DO NOT TASTE ) syrupy liquid, in which sulfuric acid cannot be
recognized by the ordinary reagents, and is very easily decomposed by boiling.
The Lead salt resembles the Barium compound. The Potassium salt C2H5KSO4
easily made by decomposing Calcium Ethylsulfate with Potassium Carbonate,
is anhydrous, deliquescent(?) in the air, very soluble, and crystallizes well.

Neutral Ethyl sulfate ( diethylsulfate )
is formed by passing the vapor of sulfuric oxide ( sulfer trioxide ?) into perfectly
anhydrous ( diethyl ) ether. A syrupy liquid is produced, which, when shaken
with 4 volumes of water and 1 volume of ether, separates into two layers, the
lower containing ethylsulfate acid and various other compounds, while the upper
layer of an ethereal solution of neutral ethyl sulfate. At a gentle heat the ether
is volatilized, and the ethyl sulfate remains as a odorless liquid. It cannot be
distilled without decomposition
( I cringe at the comment that it is " odorless " and wonder what became of
the author.)

Ethyl sulfites

Ethylsulfinic acid etc.

.

It would be nice if this thread can be reserved for DMS synthesis discussion.
Maybe you could open a "Green methylating agents" thread to discuss things like dimethyl carbonate, methyl tosylate, methyl mesylate etc...
Just a suggestion.

Some old bones

Thanks for sharing!!

It definatively looks like the oleum produced some DMS, so using Garagechemist's peroxodisulfate mehtod of making some oleum and reacting that with MeOH could be the easiest method for producing small amounts of DMS. Plus oleum can be usefull for tons of other things.
I guess adding the oleum to excess MeOH would give less of an exothermic reaction, although adding oleum might be a bit less practical than the other way around.

My To-do's list has just got bigger

I'd equally be very interested to see how the atm distn goes!

At the risk of sounding a little selfish, I'm on dozens of other projects at the moment, chemical or not, and as I'm not in desperate need for methylating agents, this reaction isn't a priority. Even if it can't be too long at the scale you suggest GC, doing long days of work, having a minimum social life (my girlfriend isn't a chemistry fan, she's even jealous sometimes ) leaves very little time in the lab.

Again, thanks for sharing Fleaker, especially if you're not in the need of DMS. Considering the price of oleurm, i can only say this a very generous experiment Thumbs up!

[Edited on 22-1-2008 by Klute]

So you distiled the MeHSO4 directly from the Na2SO4? That's surely were your water came from,a s it woill loose the water of hydration upon heating. But I recall this method worked anyway, so maybe the Na2SO4 hold juste enough to the water for it not to hydrolyse the methyl sulfuric acid or the DMS, especiially at those temperatures. Have you tried deacnting the MeHSO4 from the sulfate before distilling? This was brought up a few times too.

It's a pleasure to read such detailled descriptions. Makes it seem so easy

Sheesh, I've just realized you explained it explicitly in the document... Read it quickly last night, half didn't stay in .

I'm sorry to always be asking for assistance but i really have no idea where where i could find this "reference." I would be most interested if someone could be of help