GhostChemist
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Stage 1. α-methyl-1,3-benzodixole-5-propanal oxime
The process way presented on Scheme 1.Scheme 1
MDA Synthesis. Part 1 of 3.
MDA Synthesis. Preparation of α-Methyl-1,3-benzodixole-5-propanal Oxime From Helional.
Starting reagents and materials:
- 260 g Helional or Ocean propanal (3-(1,3-Benzodioxol-5-yl)-2-methylpropanal CAS 1205-17-0)
- 400 ml EtOH (Ethanol 88%)
- 300-350 ml Na2CO3 (107 g Na2CO3 in 300-350 ml H2O)
- 200-250 ml NH2OH*HCl (141 g NH2OH*HCl Hydroxylamine hydrochloride CAS 5470-11-1)
- 1000 ml H2O
- 5*300 ml DCM
- 900-1000 ml H2O
- 800 ml brine (200-240 g NaCl)
- Flask 2000 ml
- Separating funnels 250 ml and 2000 ml
- Magnetic stirrer
- Vacuum pump
- Heating mantle
- Glasses
Ethanol and Helional. Fig 1
Fig 1
Helional is placed in a flask and dissolved in EtOH. Fig 2
Fig 2
Aqueous solutions of sodium carbonate and hydroxylamine hydrochloride are prepared. Fig 3
Fig 3
When sodium carbonate dissolves, the solutions heat up, and when hydroxylamine dissolves, the solutions cool down. Fig 4
Fig 4
The sodium carbonate solution is poured into a 2-liter glass and a hydroxylamine solution is added to it. This causes foaming with the release of carbon dioxide and the formation of free hydroxylamine. Fig 5
Fig 5
The resulting hydroxylamine solution is added to the helional solution over 20 hours. Fig 6
Fig 6
After adding all the hydroxylamine solution, the resulting RM is stirred for 20 hours yet. Fig 7
Fig 7
After 20 hours, a solid oxime may form. Fig 8
Fig 8
The liquid part of RM is poured into a separatory funnel for oxime extraction. 800-1000 ml of water and 500 ml of DCM are added. Shake well. The DCM layer is drained and saved. Another 200-250 ml of DCM is added for extraction. The aqueous layer is discarded after extraction. Fig 9
Fig 9
500 ml of DCM is added to the oxime in the flask to dissolve it. All of the separated DCM is also added too. Fig 10
Fig 10
A saturated solution of sodium chloride in water is prepared in advance. Fig 11
Fig 11
Distilled water is poured into a separatory funnel and the resulting solution of oxime in DCM is added. The mixture is shaken well. DCM is separated. The aqueous layer is discarded. Fig 12
Fig 12
Next, the prepared sodium chloride solution is poured into the separatory funnel. DCM is added for washing too. The mixture is shaken well, DCM is separated, the aqueous layer is utilized. Fig 13
Fig 13
Anhydrous sodium sulfate is added to the washed DCM for drying. Fig 14
Fig 14
The dried DCM distilled off. The distillation is initially carried out at atmospheric pressure, reduced pressure is applied at the end of the distillation for complete removal of DCM. Fig 15
Fig 15
The resulting oxime is a yellow or yellow-orange oil. Fig 16
Fig 16
The oil further crystallizes. Fig 17
Fig 17
Yield is quantitative 278 g, 99%
Stage 2. α-methyl-1,3-benzodixole-5-propanamide
The process way presented on Scheme 2.
Scheme 2
MDA Synthesis. Part 2 of 3.
MDA Synthesis. Preparation of α-Methyl-1,3-benzodixole-5-propanamide from...
Starting reagents and materials:
- 278 g Oxime (α-methyl-1,3-benzodixole-5-propanal oxime)
- 400-500 ml o-Xylene CAS 95-47-6 (Boiling point 144℃)
- 8 g Nickel(II) Acetate Tetrahydrate Ni(OCOCH3)2*4H2O CAS 6018-89-9
- 4500-5000 ml DCM
- 2000-3000 ml H2O
- Flask 2000 ml
- Reflux
- Thermometer
- Separating funnel 2000 ml
- Heating mantle with stirrer
- Glasses
- Schott funnel
- Vacuum filtration kit
- Vacuum pump
- High vacuum grease
200 ml of o-xylene is added to the oxime. Fig 18
Fig 18
Nickel acetate tetrahydrate is added to a solution of oxime in o-xylene. Fig 19
Fig 19
The mixture is heated to a gentle boil and kept for 8-10 hours under a reflux condenser at a temperature of 130-140℃. Fig 20
Fig 20
After cooling, RM crystallizes. Fig 21
Fig 21
The cooled RM must be completely dissolved in DCM (4-5 L of DCM). Fig 22
Fig 22
1000 ml of water is poured into the separatory funnel. The first portion of the saturated solution of amide in DCM is added and washed. Solid amide in the flask is dissolved with new portions of DCM. Washing is necessary to wash out toxic nickel salts. Washing operations for each portion of DCM are carried out with fresh water. Washing with a sodium chloride solution is recommendable when cleaning very dirty RM, but was not used in this case. Fig 23
Fig 23
The washed DCM layer is separated and saved. An additional 200 ml of DCM is added to the aqueous layer to extract the amide. Aqueous layer is discarded. Fig 24
Fig 24
The DCM layer is dried over anhydrous sodium sulfate. Fig 25
Fig 25
The dried DCM is distilled off. At first, distillation is carried out at atmospheric pressure. At the end, vacuum distillation is used to completely remove DCM. Fig 26
Fig 26
After DCM distilled off and cooling RM, amide crystals is formed. Fig 27
Fig 27
The crystals are filtered out on a vacuum filter. Fig 28
Fig 28
The amide crystals are quickly washed with a portion (50-70 ml) of DCM. Fig 29
Fig 29
The amide is dried. Yield is 165 g or 59.4%. Fig 30
Fig 30
Stage 3. MDA
The process way presented on Scheme 3.
Scheme 3
MDA Hydrochloride Synthesis From Amine. Part 3 of 3.
MDA HCl Synthesis from α-Methyl-1,3-benzodixole-5-propanamide.
Starting reagents and materials:
- 150 g α-Methyl-1,3-benzodixole-5-propanamide
- 3000 ml H2O
- 159 g NaOH in 500 ml H2O
- 745 ml NaClO (Sodium hypochlorite solution CAS 7681-52-9) with active chlorine 13%
- 2000-2500 ml DCM
- 800-1000 ml H2O
- 1000-1200 ml 5-7% aqueous HCl
- Aluminum oxide 2-3 g
- Flask 5000 ml
- Ice 2-3 kg
- Reflux
- Glasses
- Magnetic stirrer with heater
- Separating funnel 2000 ml
A solution of alkali in water is prepared before synthesis and cooled to +5℃. Fig 31
Fig 31
The amide is poured in to a 5000 ml flask and 3000 ml of distilled water is added. Fig 32
Fig 32
The suspension of amide and water is cooled to 0-5℃ while stirring. Fig 33
Fig 33
The alkali solution is added in portions over 30 minutes. Fig 34
Fig 34
A sodium hypochlorite solution with a chlorine activity of 13% is pre-cooled to +5℃. Fig 35
Fig 35
The activity of chlorine in sodium hypochlorite is determined by density. Fig 36
Fig 36
Next, sodium hypochlorite is added to the RM. The RM is stirred for 1-2 hours. Fig 37
Fig 37
RM is heated to a temperature of 70-75℃ and stirred for 1.5-2 hours. All solid amide should turn into oil. That is, RM from suspension should completely turn into emulsion. (When taking a sample of oil, the sample should not give needle-shaped crystals when cooling, since this indicates the presence of unreacted amide). RM pH≥10. Fig 38
Fig 38
1000 ml of DСM is added to the cooled RM. DСM is not utilized! Fig 39
Fig 39
The aqueous layer of RM is poured into a separatory funnel and extraction is carried out with several portions of DCM. Fig 40
Fig 40
All DСM solutions are combined. Fig 41
Fig 41
The resulting DCM layer with a total volume of 2000-2500 ml is washed with 800-1000 ml of water. Fig 42
Fig 42
The washed DCM layer is dried over sodium sulfate. Fig 43
Fig 43
Further extraction of the MDA with an aqueous solution of 5-7% hydrochloric acid is used. Aqueous hydrochloric acid is poured into the funnel, then DCM. The mixture is shaken well. The aqueous layer should always be slightly acidic. Fig 44
Fig 44
A small portion of aluminum oxide 2-3 g is added to the separated aqueous layer containing the MDA hydrochloride and mixed well. Fig 45
Fig 45
The solution is filtered through a paper filter. Fig 46
Fig 46
The filtered solution is evaporated until crystallization. Fig 47
Fig 47
The resulting crystals are transferred to a filter. 125 ml of petroleum ether are added. Fig 48
Fig 48
The crystals are carefully ground on a filter with a pestle. Fig 49
Fig 49
The solvent is removed by vacuum. Fig 50
Fig 50
Next, the crystals are ground in a mortar with a small portion of DСM. Fig 51
Fig 51
The mixture is filtered. Fig 52
Fig 52
The washed product is transferred to a mortar and ground into powder again. Then ground in a mortar continues with the addition of fresh DCM and ethanol (1:1). The procedure is repeated 3-4 times. Fig 53
Fig 53
The resulting mixture is filtered and additionally washed with DCM. Fig 54
Fig 54
The resulting powder is dried on a filter. Fig 55
Fig 55
The authenticity of MDA is proven by a qualitative reaction with gallic acid (a solution of 0.05 g of gallic acid in 10 ml of 80-94% sulfuric acid). The appearance of a green color indicates the presence of MDA. Fig 56
Fig 56
Yield of MDA hydrochloride is 70%
!!!!!!!!Further purification of MDA hydrochloride will be show in the next topic and video!!!!!!!
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