Methamphetamine synthesis from P2P by NaBH4 reduction. Medium-Scale.

G.Patton

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Introduction

I represent to BB audience Methamphetamine synthesis method of 1-phenyl-2-propanon (P2P) reductive amination by NaBH4. Following method allows obtaining and large batches of product. The hardest problem of this method is the heat generating during exothermic reaction of imine reduction. Extremely important keep temperature in described frames and keep all reagent and reaction atmosphere dry (use drying tubes with CaCl2). Also, manipulations with NaBH4 is quite dangerous and take a lot of attention because this reagent has toxic effects, reacts with water and alcohols with releasing enormous amount of hydrogen and form the corresponding borate, it may cause an explosion, burns and injuries. You have to use chemical glass, gloves, chemical coat and respirator.

Equipment and glassware:

  • Ceramic mortar;
  • 2 L (x2), 0.5 L (x2) and 200 ml (x2) beakers;
  • 2 L (x2) and 10 L Erlenmeyer flask;
  • Measuring cylinder for 100 ml;
  • 2 L three-necked round bottom flask with plugs;
  • 2 L round bottom flask with vacuum quickfit or Schlenk flask;
  • 0.5 L Simple dropping funnel with Claisen flask and drying tube or 0.5 L equal pressure dropping funnel;
  • 1 L Separator funnel;
  • 2 L Evaporation flask;
  • Pyrex dish 0.5 L;
  • Magnetic stirrer with heating plate;
  • Silicone-oil bath;
  • Icecubes/methanol bath (-10 °C) or Mashed ice with salt (-10 °C);
  • Laboratory scale (1 g-1 kg is suitable);
  • Oven;
  • Laboratory grade thermometer (-20 °C to 200 °C) with three-necked flask adapter;
  • Aspirator;
  • Drying tube x2;
  • Rotavap machine with water bath;
  • Filter paper.

Reagents:

  • 138 gram P2P (1 mole) (1-phenyl-2-propanone);
  • 10% Methylamine in Methanol (w/w) - 1000 ml with 100 g MeNH2 (~3 moles);
  • Magnesium Sulfate - 36 g (MgSO4·7H2O, oven dry at 300 °C for 2h MgSO4·1H2O) [For drying MeOH/MeNH2 solution];
  • Silica Gel (3-5 mm balls) - 200 ml (dry at 300 °C/2h, they will darken!) [For absorbing 2 mol H2O during rxn];
  • 15 gram NaBH4 as a reducing agent for the formed (water-free!) imine;
  • 5-7 L distilled water + ~5 L distilled water to filling rotavap machine bath;
  • 1 L Dichloromethane (DCM);
  • 0.5 L Acetone.
Important: the reaction is very sensitive to any water (fluid or vapour in the air!).

Note: hold all manipulations in pull out probe or under exhaust hood; methylamine is a rather toxic substance, do not let its vapors enter the respiratory tract. Using respiratory mask is required. Inhalation of methylamine causes severe skin irritation, eyes and upper respiratory tract. Firstly, leads to excitement and then to depression of the central nervous system. Death can occur from respiratory arrest.

Procedure

Precursors drying
First quickly crunch your pre-dried (oven, 300 °C, 3 hrs.) dry MgSO4 to pop corn shaped rocks in a mortar, sieve the powder out, and directly put the rocks under max. mixing in the Methanol/Methylamine mix (1000 ml) and close the pot to let no water from the air in. Keep mixing for 10 minutes, then all the water will be taken up to the MgSO4. Let stand and wait till all the MgSO4 is on the bottom. Now quickly tap off the now dry MeOH/methylamine (MA) mix in a 2 L three-necked round bottom flask and close that one. Wash directly your empty pot with lots of water, to remove the smell of methylamine, so you can safely store it.

Synthesis
Now add the 200 ml (measure in beaker, neglect the free spaces) dry Silicagel beads (2-5 mm) and a magnetic mixer bar also in the 2 L flask and close again. Keep 2 L flask in Silicone-oil bath at 20 °C. Silicone-oil only slowly warms up! Do not apply heat now, it's only meant as a cooling medium in this stage. Now add slowly via a dropping funnel the 138 g P2P to the 2 L flask under strong mixing. The temperature rises to 23 °C during the (water-free) Imine forming. The water from this reaction is taken up by the dried Silicagel! This takes 30 minutes. Let, then mix for another hour. The reaction mix color changes from light yellow to coffee+milk color. Temp 23 °C.
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Stop mixing after this 1 hour and pour the fluid off into a 2 L glass erlenmeyer with flat bottom and add a mixbar. The remaining Silicagel is washed 3 times with 50 ml dried (use silicagel) methanol, to catch the remaining Imine, and those 2 x 50 ml is also poured into the 2 L erlenmeyer. Now put the 2 L erlenmeier on magn.mixer, in an icecubes/methanol bath (-10 °C) (or mashed ice with salt) and start strong mixing. Put a drip funnel on top of 2 L erlenmeier, in rubber ring. Now start adding, every 5 min., a teaspoonfull (flat off!) of NaBH4 in minimum methanol, wash it from funnel with minimum methanol amount. After every spoonfull, stopper the funnel loosely with a rubber stopper. This takes 2.5 hrs. Do not exceed a temp of more than 20 °C! You can add the next spoon at ±8 °C. Solution color is light clear orange/brown. Let mix in total for 8.5 h (could perhaps be lot fewer hours).
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The total volume is ~1900 ml. Add then the mix to 5 L distilled water into a 10 L flask, under magn.mixing. The pH=12. Add then 500 ml DiChloroMethane (DCM) and mix strongly for 30 min. Let oil precipitate and a dark, honey-coloured layer of DCM+oil settle onto the bottom. Decant the water part with an aspirator + siliconetube. Fill the rest (water+DCM+oil) in a seperatory funnel and tap off only the DCM+oil = 550 ml. (DCM b.p. 40 °C). The leftover MgSO4 and boro salts stayed nicely in the waterpart. Then dry the DCM+oil with some dry MgSO4 and decant in 2l erlenmeier. Wash this MgSO4 with some fresh, DRY DCM and add the DCM washings to the now dry DCM+oil. Total volume DCM+oil =1000 ml, colour is honey/red.

Producing methamphetamine hydrochloride
Start now bubbling this 1000 ml with HCl-gas via 2 L Schlenk flask (or round bottom flask with vacuum quickfit), while this 2 L flask stands in ice bath on magn. mixer and blends vigorously. Check pH frequently, proceed until pH 6. Pour the now acidified 1000 ml in a 2 L evaporation flask and put on Rotavap machine. Spee~100 rpm, t° = 80 °C, little vacuum=0.8 bar (water-jet aspirator is enough), to hold the flask. After distillating off nearly all the DCM, suddenly the contents of the flask turns from dark honey colour to creamy milk color, and it dries out to a round cake on the bottom. Remove the ~0.5 L DCM, now in the collector flask, and hang that empty flask on again. Now put full vacuum on to remove the last traces of water.

Cleaning by 3 x recrystallization: put minimum quantity of hot (40 °C) dry DCM (or dry 98%+ ethanol) in the flask until the last remains of the dry stuff dissolves, and add 4x this DCM-quantity in the form of dry acetone. Close with stopper and put 1 hr in freezer. A solid dirty-white crystal mass is formed with a layer of dark red fluid on top of it. Decant the fluid and repeat this step another 2x and 2 hrs. You have, the last time, snow-white crystals of racemic methamphetamine hydrochloride. Dry Weight = 141.5 g, close to quantitative yield.

Methamphetamine purification.
You can use this technique or follow next advices to produce ICE meth: melt this crystal mass in an alu flat bottom pot on a heater plate at 170-175 °C. Then let this melt, very slowly, and do not go higher than necessary to melt it, or its starts smoking (you have your first quick-test then: enjoy!). Cool down to 150 °C again, really slowly, 1 °C/30 min. (regulate with your temp controller!), and you got ICE, after you let it very slowly again cool down to room temperature (with a closed lid on it!, its hygroscopic!). Advantage: you removed all the water in this process!

You can better make the sulfate salt following logical method: Let 10% H2SO4/Ethanol mix acidifying a 1:4 mix of freebase Meth/Ethanol. This is not so hygroscopic. Filter and dry the crystals.

 
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Hans-Dietrich

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Variation on the theme of Barium from the Hive.

In the first step, too much emphasis is placed on temperature control. Nothing will happen if the temperature rises to 30 degrees Сelsius ... but if it is higher, then all sorts of miracles will begin. You just need to make sure that the reaction mass does not get too hot. The glycerin bath may have too much inertia. It is quite possible to use IPA as a solvent. Alkali can be used to dry the reaction mixture. You can also use an aqueous solution of methylamine or a solution in IPA. You need to dry the reaction mass in any case )
 
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Sentinel

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Hey this is a really good and useful guide, but if possible could some picture be added. Also how much would this yield?
 

G.Patton

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~74.1% from 138 g (1.0285 mole) P2P
 

primitiveintelectual

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so 2 L round bottom flask with vacuum quickfit or Schlenk flask is it the main bank where HCL gas is produced? through these bank I can regulate gas?
 

G.Patton

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Hello. No, it's vessel with reaction mass, which is used for HCl gas bubbling via DCM+oil( =1000 ml) reaction mass.
Look at there HCl laboratory generator;
 
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primitiveintelectual

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Ok HCL generator transfer gas to this Schlenk bank in which there is a mixture of DCM+oil How will this Schlenk Bank be used? Wouldn't it be enough to put DCM+oil in a beaker and HCL generators to transfer gas to this kit?
 

G.Patton

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Yes, but your product will suck moisture from air and HCl gas will poison air around you. Be careful.
 

primitiveintelectual

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So we prefer to use the Schlenk bank
So it's gassing to PH6. Can I exceed PH6 by over-gassing? And if I cross it, can it be fixed?
 

primitiveintelectual

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ok and I understand this rightly: 10% Methylamine in Methanol (w/w)
does that mean that we put 100g of Methylamin into 1000ml of methanol?
 

G.Patton

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100 g of methylamine is brought to 1000 g with methanol
 

btcboss2022

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Is possible to make that synth directly with Methylamine HCL?
How will be the process in that case?
Thanks.
 

G.Patton

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No, you have to make free base only.
 
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Tweaker

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How did you prepare the methylamine freebase/methanol solution?
 

masterpell

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bro, can you make a p2p large-scale video plz! including molded parts thanks
 

malayboy

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@G.Patton

Questions:

*1. One of the reagents, Magnesium Sulfate, are suggested to use Anhydrous Magnesium Sulfate? or MgSO4·7H2O, known as Epsom salt, epsom salt is easier to obtain but with anhydrous (CAS 7487-88-9), would it be lesser steps? or they are actually same?

*2. Silicone Oil Bath - I found a china supplier who sell with exact name, but out of stock, do we have any alternative? and how does this be used in the synthesis?

*3. Simple dropping funnel with claisen flask - at this point are we trying to assemble lab apparatus as below images shown?

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and would the "0.5 L equal pressure dropping funnel" be necessary?

*4. The laboratory grade thermometer with 3-necked flask adapter is it like a glass stopper with a hole for thermometer or temperature probe inside a test tube hold by rubber stopper? shown at below image:

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*5. An aspirator vacuum pump which I have does not consists of chemical solvent vapor resistant, and those with teflon or PTFE seal, chemical resistant aspirator are too expensive

a. is it the reason of the need of HCl Laboratory Generator by @William Dampier comes in?
b. if not, sir please space few minutes to go through the below video that shown customized aspirator does it will do the job? if yes, what appropriate neutralizing chemical we should add into the water?


*6. The Rotovap Machine needed in this synthesis are 5L or 10L capacities?
 

G.Patton

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There are 7 molecules of water per one molecule of MgSO4, as you write above. It isn't appropriate for use. You can dry it (MgSO4·7H2O) in oven at 250 deg for 5-6 h and use.
You can use usual bath with mineral oil. It used as heater. Please, learn these topics firstly.
No, I suggest the option to substitute equal pressure dropping funnel. Just put Claisen flask and drip funnel instead of equal pressure dropping funnel (if you don't have this one).
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It is just flask adapter for thermometer, which is immersed in reaction mass
You can use solvent trap. Read topic about vacuum in Laboratory FAQ, please.
You need HCl gas in any case

Yes, water-jet aspirator is suitable
You can use 5 L. Depends on you
 
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malayboy

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thank you sir, i will ensure in practice
 

btcboss2022

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Hello,

After many tests using Methylamine HCL based on this method I will share the best way that I found to obtain Methamphetamine freebase in big scale:

  • 966 gr P2P​
  • 14 liters Methanol
  • 1183 gr Methylamine HCL​
  • 638gr NaOH​
  • 452 gr Anhydrous Sodium Sulfate​
  • 105 gr NaBH4​
  • 35 L distilled water​
  • 7 Liters DCM​

- Fill the reactor with the 14 L of Methanol
- With stirring dissolve the Methylamine HCL
- Put the reactor temp at 0C(not the mixture temp) and add the NaOH, the temp will increase
- Once the temp come back to 20C add the P2P, the temp will increase stir it during 45min-1 hour
- Add 252gr of anhydrous sodium sulfate
- When the mixture temp arrives to 8C start adding portionwise the NaBH4 not exceeding the 20C
- Once all the NaBH4 has been added let it mixing under 20C during aprox 2 hours until the mixture stops bubbling
- Add the water and continue mixing during 5 min
- Add the DCM and mix it during 10 min
- Stop stirring and let layers get separated
- Keep the bottom layer and discard the upper one( not profitable to extract this aqueous phase)
- Add 200gr of anhydrous sodium sulfate to the saved layer and mix it
- Filter it in Buchner Funnel
- Evaporate the DCM
- Clean and smelly Methamphetamine freebase obtained

;-)
 
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chef learner

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In this method of BOSS, apart from the water problem, is there anything else that will affect the yield?
Why is the yield of methyl free base remaining after evaporating DCM only 50%?
Is there anything I should pay attention to that I haven’t noticed? Please help me~~

@G.Patton
 

Zozaaaa

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What is the weight of the final compound obtained from this experiment??
 

G.Patton

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What about product yield?
 
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