A Complete MDMA Synthesis for the First Time Chemist

The synthesis as described 1. does not put off nasty fumes, 2. doesn't require suspicious

chemicals, and therefore is 3. perfect for the clandestine chemist. The synthesis itself can be

performed in a series of weekends or in a straight shot. If one were to follow this exactly - with no

shortcuts - buying everything they're told - doing exactly what is written - they and they're friends

will have a lovely spring. For those who think they are better than the instructions as written - be

prepared to screw it up at least 4 times before success (or you finally figure out I'm right). Be

prepared to invest ~$800. Be prepared to read and learn. It's also a good idea when investing in

chemicals to buy 5x what is needed for a synthesis - this way you can repeat it without buying it

again. Read the whole thing before you start. There is some prep-work that can be done ahead of

time, or while you're distilling. Good luck.

Overview:

1. Distillation: of Natural Oil to obtain pure Safrole

2. Rxn: Formaldehyde + Ammonium Chloride -> MethylAmine.HCl (MeAm.HCl)

3. Rxn: Safrole -(Wacker Oxidation(PdCl2

+Benzoquinone))-> MDP2P

4. Distillation: of Reaction contents to yield pure MDP2P

5. Rxn: MDP2P -(Al/Hg Amalgam (MeAm.HCl) -> MDMA oil

6. Crystallization: (MDMA oil + HCl in IPA/Xylene) (anhydrous conditions)

What you need:

This list is the basics. Do not even start this without ALL the Chemicals and Apparatus.

Apparatus and Glass:

• 'The Organic Chem Lab Survival Manual' by James W. Zubrick. (A must, throughout this

text, pages from this book will be mentioned. ~32$) (and very handy pictures of glass set-

ups)

• Distillation Apparatus (1x500mL and 1x1000mL Round Bottom Flask, 1x250mL Round

Bottom Flask, condenser, distillation adapter, vacuum adapter, thermometer adapter) (Get

Ground Glass Joints. These are the best. 19/22 or 24/40 - my first set was 19/22 - and is still

used to this day.)

• Thermometer (0°C to ~300°C)

• Stand (Home Depot - (2x10in., flange, 2 ft. of ½in pipe))

• Clamp (Buy it. Trust me its worth it) (for holding the glassware to the stand - these support several hundred dollars in glass - buy a nice one!)

• Hotplate/Stirrer combo (got to have it, its worth it) (www.labx.com - spend $200)

• Magnetic stir bar (look on the Web) (teflon coated)

• Water Aspirator (or a good vacuum source. But aspirators are cheap <$20)

• Boiling Stones (for distillations. Small shards from a broken coffee mug)

• Tubing (about 10ft. total (3 meters) - hardware store - vacuum tubing is better than dialysis

tubing - but both will work)

• Vaseline (not much - for coating of the ground glass joints)

• Measuring Cups (Prefably pyrex, and in milliliters (mL))

• 10 various sized glass containers/bottles (250mL, 500mL, 1L, 2L etc)

• Scale (a three beam analytical balance are great - and can be found for less than $100 -

www.balances.com - they can weigh as much as a kilo and as little as 0.1g - perfect!)

• pH paper (chemical supply) (just one roll will do - ~10$) (nothing specific, just need to tell

the difference between an acid and a basic solution)

Chemicals:

• Safrole (160g)(sassafras oil, yellow camphor oil) (Natural/Essential Oil distributor)

• Dimethylformamide (DMF) (350mL) (Diethylformamide or Formamide will work)

• p-Benzoquinone (Quinone, Benzoquinone) (120g) (Photo Shop, or Chem supply)

• Palladium Chloride (PdCl2

) (2g) (Photo Shop, or chem supply)

• Methylene Chloride (DiChloroMethane, DCM) (this can be distilled from automotive

solvents (just go into Nationwise, PepBoys, Sears, AutoZone And read the labels) Or a Liter

can be bought from a Chem supplier.)(Zip-Strip furniture polish remover)

• Hg salt (1 gram of: HgCl2

, Hg(NO3

)

2

, Hg(OAc)2

, HgCl, It can be anything, and 1g should

last you a long time.)

• Isopropyl Alcohol (IPA, Pharmacies 91% Isopropyl Alcohol will be available)(get +3L)

(don't get the 70% stuff) (or you can get pure stuff from a chem supplier)

• Epsom Salts (Magnesium Sulphate) (MgSO4

) (grocery store/pharmacy) (Spread out on a

cookie sheet, and bake in the oven at 200°C for 3hr to dry them - pretty useless if you don't

dry it)

• Thick Al foil (heavy duty, or pie pans from the Grocery store)

• Muriatic Acid (31.45% HCl)(Pool pH down, Driveway cleaner, ~3$/gallon)

• Sodium Hydroxide (NaOH) (Drain Cleaner Crystals) (Read these labels, Get the stuff that

is JUST NaOH.) (Red Devil Lye, Lye - Hardware Store)

• Ammonium Chloride (NH4

Cl) (Photo Store or Chem Supplier)

• Paraformaldehyde (Hardware store) (called Mildewcyde or DiGas - made by the same

people who brought you Damp-Rid - hint-hint)

• Peanut oil (this is a high boiling oil that we will use as an oil bath on the hotplate/stirring

plate combo)

• Acetone (for cleaning your glass and crystal work-up) (Paint Section of Hardware Stores)

• Xylene (for crystallization) (paint section - thinner - get it specifically) Step 1. (4 hours)

1. Distillation: of Natural Oil to obtain pure Safrole.

Comprehensive Description of This Step by Chromic

Set up for a vacuum distillation like on page 53 of Zubrick. Always put a little Vaseline on the

ground glass joints - this way they won't stick when you try to take them apart. Put as much Natural

oil (Sassy, Camphor, ect) as you have, but not more than 300mL, into the 500mL Round Bottom

Flask (RBF) with several Boiling Stones. Put one of your 250mL RB flasks as the receiving flask.

Set up your Water Aspirator Vacuum, in the sink (this may require setting this up a day before -

parts, trips to the plumbing store, etc.) and attach the vacuum hose to the aspirator and then to the

vacuum adapter on the distillation set up. Start turning up the heat slowly! SLOWLY! The slower

you do it, the better/purer your safrole will be. At normal pressure safrole boils at 232°C - but under

your vacuum, it may boil at anywhere from 110-160°C. Whatever temp it starts to come over at -

make a note of it. And if the temp is higher than 160°C - check your seals on the tubing and

glassware - More than likely there is a little leak. Remember that Vaseline! At the end of the

distillation, you should have a water white oil that really refracts light - And has a lovely smell - a

little like potpourri.

Distillation set-up: Set up the distillation set-up on your bed, before you try to put it

together on the stand. You will get a good idea about how the pieces go together, and

become familiar with the fragility of the whole thing. Read Zubrick for advise about

where to place the clamp.

The Peanut Oil: A bowl with a flat bottom rests on the Hotplate. It is filled with Peanut

Oil. The distillation flask sits in the bowl but not touching the bottom, so that the

Hotplate heats the bowl, the bowl heats the Peanut Oil, the Peanut Oil heats the

distillation flask. This is VERY effective. And will be perfect for all your distillation

needs - especially if you do it under vacuum.

Step 2. (2 hour work + 4 hours wait + 4 hours work)

2. Rxn: Formaldehyde + Ammonium Chloride -> MethylAmine.HCl In your 500mL RBFlask: Set up for distillation (not vacuum). In the distillation flask (your 500mL

RBFlask) put: 108g of NH4

Cl, 120g Paraformaldehyde (molecular ratio 1:2, remember this when

scaling up!) and 320ml of water and several boiling stones. Start heating very SLOWLY. Remember

to turn on the water in the condenser!

At 80°C a clear solution was obtained. Heating continued - The temperature was maintained for

four hours at 104°C (this temp is VERY important - if you over shoot it - don't worry - bring it back

down and try to stabilize it at 104°C) Once you've got it at 104°C start the stop watch and do it for 4

hours. At 104°C, a small amount of distillate will come over - very slowly - this is good. We are

removing methylal, and methylformate from the reaction contents and therefore driving the reaction

to the right - or getting more of what we want.

After four hours and while the solution is still hot, set up to vacuum distill (IE its already set-up -

now just add the vacuum hose!) - but don't turn on the vacuum yet. Turn up the heat. Within 30

minutes or so - liquid should start coming over - the internal temp of the mixture should not go over

200°C - Keep distilling off the liquid until ½ of the solution remains - (IE distill off half of the

solution.) Then, take your flask off the Hotplate and let it sit in an ice/water bath. Crystals should

start to form in several minutes. Filter off these Ammonium Chloride Crystals. Now set up for

distillation of the remaining liquid again - Add a couple more boiling stones. Distill off half of the

remaining liquid. When half remains (or a ¼ of the original solution), turn the vacuum on

SLOWLY! VERY SLOWLY! - you don't want the whole mess of liquid jumping out at you. At

some point the whole mass will crystallize into a yellow-white solid. This is ~95%

MethylAmine.HCl, ~2% Ammonium Chloride, and 3% DiMethylAmine.HCl. This is fine for the

next step. It may be a little wet, but if you let it crystallize hot (spontaneously in the flask with heat)

it should be fairly dry. Seal it in a wide mouth jar until needed.

As a way to check your product - if you live in a relatively humid area, you can put a

crystal of your product on the table - walk away - and when you come back a small

puddle of water will be on the table where your product was. MethylAmine.HCl is said

to be HYGROSCOPIC. Another way is to put 20mL of water in a cup then add 5g of the

NaOH to it. Stir to dissolve. Now, drop several crystals of your product into it - it

should smell like rotting fish + ammonia. If you do the same with Ammonium Chloride,

it will just smell like ammonia.

You'll recover about 1/3 of the ammonium chloride for recycling and after a lot of evaporating.

You'll get ~80g of pure (95%) MethylAmine.HCl, which corresponds to ~80% yield. Congrats. This

can be stored at room temperature, forever. I've heard of people using 40+ year old

MethylAmine.HCl with excellent results. Paraformaldehyde is the polymerized form of formaldehyde - but unlike most

polymerization processes - this one is reversible - so Paraformaldehyde and

formaldehyde can be interchanged at will. If all you can get is formaldehyde solution -

remember that if its 37% formaldehyde then 100g of the solution contains 37g of

formaldehyde - or just go ahead and change your amounts in the flask to - 324g of 37%

Formaldehyde Solution, 108g NH4

Cl, 205mL water.

Step 3. (2 hours work + 7 hours wait + 1 hour work)

3. Rxn: Safrole -(Wacker Oxidation (PdCl2

+Benzoquinone))-> MDP2P

This step has been called the Wacker Oxidation. It uses PdCl2

as a catalyst to put and oxygen across

a double bond. This step has been worked over many times so do not change the amounts for the

fabled 'scale-up'. If you do this correctly, you will have more MDMA.HCl than you know what to

do with. (Thanks Strike!)

Procedure:

Put the following into your CLEAN 1000mL RBFlask:

300mL of dimethylformamide (DMF), 50mL of tap water, 120g of p-Benzoquinone 2g of Palladium

Chloride (PdCl2

), Magnetic Stirbar. (PS - Don't skimp on the catalyst!)

Start the stir bar on 'slow stir'. Mix 160g of Safrole and 50mL DMF in a cup/jar. Drip the

Safrole/DMF Mix into the solution at room temp (30°C) over 30min time. After the addition, the

solution was dark reddish orange. Almost black. Make sure the stir bar is spinning - Now - Walk

away. Go to bed. Go somewhere else. Set your watch alarm to wake/remind you 7 hours later. Note:

This reaction requires NO additional heating! Just stir!

Strikes comment: "After 4.5 h the solution will progress on its own to 45°C. Obvious

exothermic reaction. After 7 h solution will be back to ~30°C."

The reaction mix was flooded with slightly acidic water (~50mL of Muriatic Acid (HCl) in 1.5L of

water). The oil fell out of solution to the bottom. It was black/blood red in color. This is when its

nice to have a Big Sep Funnel.

Now we need to define several things. The upper layer (in this case!) Is the aqueous

layer - IE it's the layer that contains the WATER - the bottom layer is the organic layer (in this case!). IE it contains oil and other ORGANIC type molecules (IE the stuff you

want!).

After you flood the reaction contents shake the container to mix the solution, give it about 10

minutes to settle - two layers will form. The upper aqueous layer was a lighter blood red/pink. The

upper aqueous layer was decanted from the oil (IE it was poured off). The aqueous Layer washed

with 2x100mL DCM (Methylene Chloride / DiChloroMethane). If you can't see the layers, hold the

container up to the light, so that the light shines through the container. Keep the DCM washes -

They contain the goods.

You now should have about 200mL total of DCM washes. You should also have about ~100mL of

the 'Organic Layer' that you separated from the reaction contents. Pour the DCM washes and the

Organic layer together. Now wash the DCM/Organic layer with 2x150mL 10% NaOH (30g NaOH

in 270mL water). This will remove the other reaction by-product - hydroquinone. If you don't do

this step the hydroquinone will clog your condenser when you try to distill. Keep the DCM/Organic

layer. The NaOH layer (Aqueous: is still on top) can be tossed. (Thanks Osmium!)

You can stop here and wait for another day - put the DCM/Organic Layer into the freezer.

Define Washes - 100mL of DCM was poured into the aqueous layer and then the

aqueous layer+DCM was shaken so the two would mix - then it was put down to let it

settle out again. When it was settled (notice that the layer now is a different color) the

aqueous layer was poured off again into another jar where it was washed again with

another 100mL portion of fresh DCM = 2x100mL washes.

Step 4. (4 hours work)

4. Distillation: of Reaction contents to yield pure MDP2P

Pour the DCM/Organic layer into your CLEAN 500mL RBFlask. Put several boiling stones in too.

Set up for vacuum distillation.

This time we are going to collect a particular fraction in the flask - there is DCM (BP 40°C), water

(BP 100°C), DMF (153°C), safrole (232°C), ketone (BP est. ~290°C), and polymerized crap (BP

~300°C+)

Now remember when we distilled the safrole? What temp did it come over for you? Well - that temp

plus approximately 25°C is the temp that the ketone will come over under vacuum. For example, if

your safrole comes over at 150°C, then the ketone will come over at 175°C. If your safrole comes

over at 130°C then your ketone will come over at 155°C. Get it?

WEIGH the receiving flask! Write the weight on a piece of tape and tape it to the flask!

Start your vacuum distillation by first turning on your vacuum - if you remembered your boiling

stones, then it will begin to boil immediately. This is the DCM coming off first. The boiling may be

very vigorous, So watch it, and be prepared to vary the pressure so it won't fly into your receiving

flask. Turn on the heat (Hotplate) SLOWLY! and let the temp climb to just over the temp at which

safrole came over (SLOWLY: it should take at least 2 hours to reach that temperature - if you do it under 2 hours you are going WAY to fast). You are going to have to change the flask, when the

temp gets to above the safrole temp. This is a bit tricky, because you are going to have to release the

vacuum. Release the vacuum at the pump/aspirator and change the flask quickly - you may just

dump it out, rinse it once with acetone, or IPA (IsoPropylAlcohol) - and put it back. Start the

vacuum immediately, but be careful here, because the Organic layer that you are distilling might

jump out of the flask and into the receiving flask - so if you can - vary the vacuum so that the

vacuum comes on GRADUALLY! (IE with an aspirator, turn on the water slowly.) The ketone oil is

a clear white/yellow hint of green oil. Re-weigh the flask for your yield calculation - you should

have over 100g of ketone.

With an aspirator you can vary the vacuum when you are turning it on. You simply turn

on the water slowly. IE Increase water pressure slowly. By turning it off, you can make

water jump into the receiving flask because there is a 'vacuum' in the distillation

apparatus and it will suck water out of the aspirator - SO - when you turn off the

vacuum, do so by removing the hose from the aspirator - while the aspirator is going.

You can also vary the vacuum by removing the hose PARTIALLY - This will take some

practice so play and have fun.

Strike's excellent post read: "With high vacuum at 100-140°C ~18g safrole came over. At 166°C

came over ~125g ketone." When she did this method...

Keep the ketone. Smell it. Look at it. Look at how it refracts light. For the brave: taste it. Note all of

these 'properties' and remember - After you have judged its properties, put it in the freezer. Note: it

won't freeze. It will become a very viscous liquid.

If you try to distill the ketone at atmospheric pressure (no vacuum), you will get to about 220°C and

then the whole flask will polymerize. Total waste of effort, time, and precursors. So don't mess

around and get a vacuum source.

The ketone is unstable. It won't explode or anything, but if left to its own devises, it will rearrange.

And then it will be useless. At room temp, it will rearrange in about a week - depending on where

you live - if you keep it in the freezer - it can last months - FREEZER! After its in the freezer you

can stop for today.

Step 5.

5. Rxn: MDP2P -(Al/Hg Amalgam (MeAm.HCl) -> MDMA oil

(Thanks Ritter, Osmium, Shulgin!)

This is called the Al/Hg Amalgam. This process utilizes the electronegative properties of the

Aluminum. Now, something that most people don't realize, is that all aluminum is actually coated

with Al2

O3

. This is the oxidized form of Aluminum. We will remove this part of the foil so that the

aluminum can reduce the imine with elemental Al.

This reaction actually has two parts. First, there is the ketone → imine condensation. This reaction

reacts the ketone with methyl-amine to form an imine - water is produced as a product. Second, the

imine is reduced (Hydrogen is added across the double bond) to the amine. The condensation really

needs anhydrous (no water) conditions, and the reduction actually needs water - so there is a fine

balance here - IE don't mess with the procedure.

What you need to have prepared ahead of time:

• CLEAN 500mL RBFlask.

• 20g of thick aluminum foil cut into ~1cm squares.

• 0.1g of Hg(salt) (any mercury salt will do, not Hg Metal)

(Note: Hg=Mercury)

• Disposal Jug (milk jug)

• 1L of Clean water

• 25mL of 25% NaOH solution (dissolve 25g NaOH in 75g of water, then 25mL of it)

• 50g of MethylAmine.HCl dissolved in 300mL of 91% Isopropyl Alcohol

• 40g of 'ketone' dissolved in 50mL of 91% Isopropyl Alcohol • Cool water bath. (A milk jug with the top cut off)

• Ice (don't screw around, buy a bag) (or have at least several kilo's handy)

Set up your stand and clamp so that, when the flask is clamped to the stand the bottom of the flask

is about 4 inches (10cm) from the table top. This is so that you can put the heating plate and stirbar

combo under it. Have your thermometer already in its thermometer adapter so you can throw it in

the flask at any second.

Prepare the following, put them in a jar and have them ready at a moments notice:

• 50g MethylAmine.HCl dissolved in 300mL 91% Isopropyl Alcohol

• 40g 'ketone' in 50mL of 91% Isopropyl Alcohol

It is very important that these are ready before you start! Before you start!

20g of Al squares are put into the 500mL RBFlask. They are covered with ~350mL of H2

O (water).

0.1g of Hg(salt) (or just a very small spatula) is placed in with the Al squares, and given a good stir.

Amalgamation was allowed to proceed until there was the evolution of fine bubbles the formation

of a light grey precipitate, and the appearance of occasional silvery spots on the surface of the

aluminum. (Thanks Dr. Shulgin!)

Basically here the Al2

O3

is being destroyed, the water is reacting with the Al2

O3

to form

Al(OH)3

and H2

. This should take between 15 and 30 minutes. Just be patient.

When amalgamation is complete, pour out the water into the milk jug. Pour in another ~350mL of

water and carefully shake the flask to stir up the contents. Pour it out into the jug. Do it again with

another ~350mL of water. So basically, you wash the Al pieces with 2x350mL of water. Dump out

as much of the water as you can in 10 seconds or so - then immediately go to the next step - leave

the Al foil in.

This will remove most of the Hg from the solution. Don't worry, the Hg will be

completely removed in the successive washes during the work up. If you let the Al

squares sit in between washes, they will heat up and re-form the Al2

O3

in a matter of

seconds. So be quick and have the ingredients ready for the procedure.

Now, immediately, add in THIS order:

• 50g MethylAmine.HCl dissolved in 300mL 91% Isopropyl Alcohol

• 40g 'ketone' in 50mL of 91% Isopropyl Alcohol, then drop in a Magnetic Stirbar. Try to get

the stirbar going - it might take several minutes.

Now drip this in 25mL of 25% NaOH solution over several minutes. Put the thermometer in the

solution. Start being very paranoid about the temperature. The temperature of the reaction flask

must not climb above 60°C. Its best if the temp is kept around 50°C. Stirring is necessary so, with

the heat off, stirbar on, flask sitting in the cool water bath. When the temp gets to about 50°C, put

several chunks of ice in the bath. If the temp falls below 40°C, take some of the ice out. But

whatever you do, make sure the temp remains below 60°C. The whole time you are doing this the

contents are a grey sludge. Remember to keep the stirbar going! If the stirbar is difficult to start

going. Don't worry, trying to get it started seems to work just enough. At some point you'll notice that the temperature is not rising like it had been (in about 4 hours or

so). You have reached the end of the ketone -> imine condensation - Look inside the reaction flask

and see if you still see any pieces of Al foil - if you do - continue stirring until the Al foil has been

depleted. This reaction should go no less than 6 hours.

Now, after you are convinced that the reaction has stopped (6 hours later) - IE the temp of the

solution is room temperature, and there is no more foil chips in the mix. Pour in 25mL of the 25%

NaOH solution. Stir the contents some more, and then let the stirbar stop and then let the solution

rest for at least 30 minutes. The NaOH solution will make that grey sludge into a filterable

consistency. If you can't tell there has been a change in the consistency - put in another 25mL of

25% NaOH solution. The grey sludge should abruptly change from a uniform grey to a chunky

white/grey blob. Then in a matter of minutes the whole thing will be resting on the bottom of your

flask.

The reaction contents will settle out. The grey sludge will settle to the bottom, and a clear yellow

liquid will rise to the top. Pour off the clear yellow liquid. Save it. Put 200mL of 91% Isopropyl

Alcohol into the reaction contents, stir the solution, so that the whole thing is disturbed and swirling

in the flask and again wait. Pour off the 2nd clear yellow liquid once it settles. Add the 2nd clear

yellow liquid to the first. Do this several times, or until the clear liquid is no longer yellow.

This is an extraction out of the reaction contents. The more you do this process, the higher your

yield. So don't do it once and get excited and try to complete it with just the first extraction because

you will just waste half of your product. You've gone this far - don't fuck it up now.

After you have gotten as much of the yellow liquid out as you could. Put the grey sludge in the

same milk jug waste container. Dispose of it properly - the milk jug contains elemental Hg - Not a

lot - less than 0.1g. But you should dispose of it properly. Not down the sink. Take it to a High

School or A University, To the Chemistry department - tell them you broke a thermometer, and then

couldn't figure out what to clean it up with.

Set up for vacuum distillation (Boiling Stones!) but we're not going to distill. We are going to

evaporate the Isopropyl Alcohol (IPA) from the reaction contents. Under an aspirator vacuum, the

IPA should come over around 35°C. Make sure you get the alcohol out. When the alcohol is close to

being gone - the solution might spontaneously separate in your distillation flask. Not to worry - the

top layer is probably your product, and the bottom is water. Don't try to separate it, just dump the

whole thing into the next procedure.

The next two paragraphs out line a procedure known as an Acid/Base extraction. This

works very well for our target molecule, and any molecule that contains an amino

group. If the next two paragraphs are not done, then plan on not having any crystals

when you're done.

After the alcohol has all gone, Take the brown oil that is left and put it into 500mL of ~0.5M HCl

solution (470mL water + 30mL of Muriatic Acid). Stir or shake it up. A lot of the brown oil should

go into the acid solution. Now pour into this solution 30mL of DCM. Shake again and let it settle.

You will notice two layers formed - The top layer is the Aqueous layer - which contains your

product, and the bottom layer contains the DCM, polymerized crap, and non Nitrogen containing

molecules. Pour off the top layer (That contains your product) and discard the DCM layer. Wash the Aqueous layer again with 30mL of DCM, and repeat the process. Note that the aqueous layer

contains the product - Do not discard the aqueous layer! You can discard the DCM washes,

because they contain nothing useful what-so-ever. Discard!

Now, slowly add 50mL of 25% NaOH solution to the aqueous layer. When you do this the Aqueous

layer will turn a milky white and may heat up just a little bit. Not to worry. A light brown oil will

fall out of the solution. This is your product (in the freebase form). Before collecting it, wash the

'now basic' Aqueous layer with ~50mL of DCM. Shake and let it settle out. Pour off the top

Aqueous layer, and keep the DCM this time! The DCM washes contain the goods! Wash the

aqueous layer twice more with 50mL of DCM. Combine those DCM washes that contain your

product, and continue.

Set up for vacuum distillation, and once again, just boil off the DCM (Boiling Stones!). There might

be a little water in it, so this time when you are boiling off the DCM, let the temp of the distillation

flask reach ~50°C for several minutes. That should be good enough. You should have a light brown

oil in the flask - it kind of looks like thick Newcastle Beer.

Step 6 (2 hours work)

6. Crystallization (MDMA oil + HCl in IPA/Xylene)

This must be done in anhydrous conditions. If its not, then you will not get crystals. Anhydrous

means 'no-water'. If water is present, then you can expect to get crapola.

Procedure:

This first step can be done ahead of time. Like, during a distillation or reaction: Get a fresh bottle of

91% Isopropyl Alcohol, and pour out approximately 100mL. Now get some of your DRY

Magnesium Sulphate (Epsom Salts) (about 100mL worth) and dump it into the 91% IPA. There

might be a little heat evolution, but not to worry .... Shake it up and then let it sit till the MgSO4

settles out. Pour off the IPA, and then put more fresh MgSO4

into it (about 100mL worth). Now

shake the bottle and let it sit for 15 minutes. You must do this at least three times - It really is much

better to do it four times - Why fuck it up now right? After three times you will have 'Dry' IPA. You

can actually do this while you are distilling or waiting for a reaction to proceed.

Make a mixture of 100mL 'Dry' IPA and 150mL Xylene. Pour it into the flask that contains the

MDMA oil, and drop the stirbar in too. Stir so that the whole thing is mixed up real well - Now drip

in Muriatic Acid slowly. Test with pH paper every 5 drops or so - keep adding the Muriatic Acid

until the pH of the solution is 5-6 - or just barely acidic.

Set up for vacuum distillation, and distill the solution, distill this with the stirbar in instead of the

boiling stones - IE When the solution has reached a pH of 5-6 - Start distilling. Be careful not to let

the solution get above 120°C - When a lot of the solution has boiled away, crystals will spring to

life in the flask. Under vacuum, the solution should never get above 70°C.

Filter these with a coffee filter, suspended over a jar - This gets the excess IPA/Xylene out. Scrape the crystals on to a plate and let the crystals dry, by letting the IPA/Xylene (mostly Xylene at this

point) evaporate - this might take several hours - a 60 Watt lamp 6 inches (20cm) away from the

crystals shining brightly helps. Stir the crystals to promote even heating.

The crystals will be a brown-yellow color. Now scrape the crystals into a jar, and pour ~20mL of

acetone onto them. Swirl the mixture. The crystals won't dissolve - but a lot of the brown will. The

brown-acetone is poured off, and the acetone wash is repeated.

After the acetone wash, dry the crystals. You should have around 15g of dry crystals. That's 150

hits. The now 'almost white' crystals have melting point values over the range from 145-153 ° C,

depending on how much water was in there during crystallization. And these crystals are ready for

consumption. 60mg is not enough. 80mg is great for my wife. 100mg is a great dose. 125mg is

balls-to-the-wall. 150mg is too much. For me at least. Fun for me is actually 80mg MDMA+70mg

MDA in one pill. WHOH. But I guess you'll have to do another synth - right?