Who Needs Methylamine Anyway?
By: Ritter, edited by the Professor
Dedicated to Eleusis
Published in Total Synthesis II by Strike

The following procedure may prove to be one of the largest advances in the field
of MDMA chemistry since the perfection and dissemination of the Wacker oxidation
procedure for producing MDP2P. This reaction is based on a published process
that somehow has escaped discovery by underground chemistry until now.
Methylamine is no longer a stumbling block in the aluminum amalgam reductive
alkylation method of producing MDMA as this procedure produces this impossible
to obtain and fickle to make material, in situ, during the reductive alkylation
of MDP2P to MDMA from very common nitromethane. Nitromethane when subjected to
the simplest of reductions forms methylamine, so why not make methylamine at the
same time MDMA is being produced instead of going through the hassle of making
it separately?

Nitromethane is a very common material. Just go down to your local drag strip
and pick up a gallon or two for doping your high performance cars fuel. Its
also available up to 40% pure in RC model fuels. Simply fractionally distill the
nitromethane (bp.101 degrees Celsius) out of the model fuel mixture and youre
ready to go. If methanol is present in the fuel formulation, some will
azeotropically distill over with the nitromethane lowering its boiling point
slightly, but this does not present a problem.

So, how does this whole thing work? Its as simple as it sounds. An alcoholic
solution of nitromethane and MDP2P is dripped into a mass of amalgamated
aluminum immersed in alcohol first reducing the nitromethane to methylamine,
allowing the Schiff base of the amine and ketone to form which is further
reduced to the desired MDMA.

Set up a 2 liter two or three-neck flask with an addition funnel and a reflux
condenser and provide with a heat source. Not much heat is needed here so
anything from a water bath on a buffet range to a heating mantle is fine. Stuff
55 grams of one-inch squares of aluminum foil into the flask. An important topic
must be addressed here which has been formerly neglected to a confusing degree 
the proper type and thickness of the foil. The problem with aluminum amalgam
reductions is that their reaction rate is dependent on three major factors, and
depending on how you play these factors you may either have a complete failure
or an explosion, or better yet if you follow this advice, a perfect yield! These
factors are the mentioned foil type, the degree of amalgamation allowed by HgCl2
solution before ketone and amine are reacted, and finally, the temp the reaction
runs at. Thick foil tends to react slowly at a low temp and very thin foil, such
as generic food grade aluminum foil, tends to react so fast and exothermically
you can literally shit your pants! The aluminum, which produced the best
results, is widely available to the industrial biological community in the form
of 4" x 4" sheets .04mm thick neatly separated from each other with a sheet of
tissue paper. It is used for sealing flasks and the like before they are
autoclaved. For those of you who cant get this, dont worry. Heavy Duty
Reynolds Wrap will work fine, only a more careful eye must be kept on the
reaction rate. Others have reported success using cut up pie tins. The main idea
is dont use real thin foil.

Fill the separatory funnel with 50 grams of MDP2P and 50 grams or 39ml
nitromethane dissolved in 200ml methanol. In another 1 liter vessel, add 1.5g
HgCl2 (mercuric chloride) to a liter of methanol and allow all solids to
dissolve. Very carefully (HgCl2 is deadly poisonous!) pour the methanolic
solution of HgCl2 onto the aluminum foil pieces in the flask and stand back and
watch the magic begin. If all the foil isnt covered by the methanol just add
more until it is. In a few minutes effervescence will begin and the reaction may
be started. After about 5-10 minutes the bubbling should be sufficient and you
may start adding the methanolic mixture of nitromethane and MDP2P drop by drop
from the separatory funnel. As time progresses the reaction may heat up to the
point of boiling and refluxing of the alcohol will occur. This is no problem as
the 65 degree Celsius boiling point of methanol is perfect for this reaction (I
know many disagree, but dream about this and youll see!) The addition should
take roughly one hour and the mixture should be allowed to react for at least
4-6 hours after or until all pieces of aluminum are reacted into gray
suspension. Temperature control needs to be addressed here. If the reaction
proceeds under ideal conditions, it will run exactly as described above. If less
than ideal and more commonly, the reaction will start to slow down halfway
through requiring external heating to maintain a good reaction rate. If the
Greater Powers are really against you, an addition of another gram of HgCl2 in
methanol solution to the mix will kick it back in.

Now the easy part  isolating your product. One of the most attractive features
of this new synthesis is that the standard Al/(Hg) amination mixture must be
tediously filtered to separate the product from the spent aluminum hydroxide
sludge at this point. The following remedies this most frustrating step and will
probably give many a new outlook on the potential of the Al/(Hg) reduction.

Mix up about 1.5 or 2 liters of 35% NaOH solution and allow to cool. Slowly add
the gray aluminum gook produced in the first reaction to the NaOH solution and
pour into a large separatory funnel. Two distinct layers will appear after
sitting for maybe an hour, the top being a reddish alcoholic solution of product
and the bottom garbage NaOH/Al(OH)3. Simply separate off the garbage bottom
layer and discard. Dont worry, theres no product tied up in it, and remember
that no filtration is needed anywhere in this recovery process compared to other
synths out there! Take the top layer and evaporate off the methanol to give an
amazing yield of impure amine and a little bit of water. Unscrupulous souls not
worth their weight in shit can take this product and crystallize it directly but
there is a lurking deadly poison in it at this point  solvated mercury salts!
These can be easily removed by dissolving the crude product in about a liter of
toluene and washing it with several portions of water in a separatory funnel and
finally with a saturated NaCl solution. Dry the toluene with about 50g anhydrous
MgSO4 made by heating drug store epsom salts in the oven at 400 degrees
Fahrenheit for an hour, cooling then powdering. After sitting for an hour or
until the toluene is no longer cloudy, chill the dried toluene solution of
freebase in the freezer and bubble away with HCl gas to produce beautifully pure
MDMA hydrochloride crystals. If they are a little discolored they can be cleaned
up with an acetone rinse to pristine purity WITH NO MERCURY CONTAMINATION!

[see ref. CA, 51 11278 (1957)]
