Extraction of Piperine with Subsequent Synthesis of Piperic acid and Its UNSUCCESSFUL Oxidation to Piperonal

GhostChemist

Expert
Language
🇬🇧
Joined
Nov 20, 2022
Messages
103
Reaction score
225
Points
43
EVrLJ85Ruz

Stage 1. Extraction of Piperine

Starting reagents and materials:
  • 400 ml of 88% ethanol
  • 300 g of ground black pepper
  • Potassium hydroxide (KOH)
  • 180 mm diameter filter papers
  • Soxhlet extractor (500 ml)
  • Measuring cups
  • Funnel
  • Heater
FnsWF5Nh8P


Pour 300 ml of 88% ethanol into a 500 ml flask.
Place 60 g of ground black pepper in a paper extraction sleeve (180 mm in diameter).


UbsnLNwEKr


KcqFL981vp


Xeo9j6HnIh


Assembling the apparatus for piperine extraction, the flask with ethanol was heated, and the reflux condenser was cooled.

NmLQeZNFzw


ECjAMD4zXe


PXfoi4hTtd


A2AqYSNovR


Each portion of pepper (60 g) was extracted until the condensing ethanol becomes colorless. Then, a new extraction was performed on the next portions of black pepper, each weighing 60 g, with the addition of 20 ml of fresh ethanol. In total, 5 extractions were carried out from portions of ground black pepper weighing 60 g each, which corresponds to the maximum saturation of ethanol with piperine.

VzVyIquFL2

Stage 2: Piperine Precipitation

Reagents and Materials:

  • Ethanol extract of black pepper obtained in Stage 1
  • 24 g of potassium hydroxide (KOH)
  • 216 ml of 88% ethanol
  • 1 liter of distilled water
  • Chemical beakers
  • Filter papers
  • Funnel
Gv7ldx8mEz


Potassium hydroxide (KOH) was dissolved in ethanol. The obtained black pepper extract was filtered through a paper filter directly into the prepared KOH solution.

34eCRYLcn9


Aa02P9bfFz


The obtained solution was heated to 60-70℃.

IUGeMYHajA


In the heated solution, water was gradually added in portions (about 1 liter) until the formation of yellow precipitate of piperine ceases.

PfHy4hmDnR


LZ0mya1BcK


O75IO6jKwL


The obtained suspension was cooled in a freezer until the next day and the precipitated residue was filtered out.

R4YutkrgjO


TM5plYLevu


The filtered precipitate of piperine was dried in a desiccator over alkali or under a heat gun until a constant mass was achieved. The precipitate should have a slight pepper odor and a melting point of 127-128°C.

W91C36MSNO


The yield of piperine is 17 g.

DoFZzJKPqB

Stage 3: Alkaline Hydrolysis of Piperine to Piperic acid

Reagents and Materials:
  • 17 g of piperine
  • 193.8 g of KOH
  • 500 ml of ethanol (EtOH)
  • 900 ml of 14% HCl
  • Magnetic stirrer with heating
  • Chemical beakers
  • 1-liter flask
  • Reflux condenser
  • Funnel
  • Filter papers
C4ciYJrsE6


Ethanol, KOH, and piperine were added to a 1-liter flask. The mixture was stirred until dissolved and heated at 70-80°C for 10 hours.

HYumtRe4V0


WABnZditK7


3SJq9QinxE


The resulting warm suspension of potassium piperate was transferred to a beaker, and hydrochloric acid was added until complete precipitation of piperic acid occurs.

32ZKt6n0If


Do9jKUNJbn


The precipitated light-yellow piperic acid was filtered through a dense paper filter. Glass filters with porosity of 160 and 100 do not filter the precipitate, while a filter with porosity of 60 gets clogged.

J6qDNgSBKi


FoWsJy18gB


Piperic acid was dried in a desiccator or under a heat gun until a constant mass was achieved. The acid is a yellow powder with a slight pepper odor.

A8j1b9f3J4


The yield of piperic acid is 12 g.

Stage 4: Oxidation of Piperic Acid to Piperonal using Copper(II) Hydroxide (UNSUCCESSFUL)

Reagents and Materials:
  • 12 g of piperic acid
  • 41 g of NaOH
  • 62 g of CuSO4·5H2O
  • 500 ml of water (250 ml for Copper(II) sulfate and 250 ml for alkali)
  • 150 ml of DCM
  • Chemical beakers
  • Magnetic stirrer with heating
  • Reflux condenser
GJlnDSF5pe


The solution of copper sulfate was mixed while adding the alkali solution, and then piperic acid was added. The solution was heated for 8 hours under a reflux condenser at a temperature of 80-90°C.

SlnCQkaFK1


UkgM0aWlqx


XOkV3D0Nwi


EBnH9vfA6y


After 8 hours, based on the odor of heliotrope and a slight pepper odor, it is presumed that piperic acid and piperonal are in equilibrium in the resulting reaction mixture. An attempt was made to remove the formed heliotropin by steam distillation and to extract from the reaction mixture with dichloromethane. The dichloromethane was dried with sodium sulfate and evaporated. As a result, the yield of the oil-like, non-crystallizing substance with the corresponding heliotrope odor was less than 1 g. The alkaline reaction mixture also contained unreacted piperic acid in the form of sodium piperate. The method was unsuccessful in reproducing the oxidation of piperic acid using Cu(OH)2.

JLTADRQGjh


V9iL6XRf2W


NZPBX7RJVc


Z9rSBR0mub


4EqfucAIv0

These results allow to understand that extraction method piperine is valid. Also, synthesis of piperic acid from piperine gives decent yield. But Cu(OH)2 isn`t work well as oxidizer of piperic acid in piperonal synthesis.
 
Last edited:

Mo0odi

Don't buy from me
Resident
Language
🇺🇸
Joined
Aug 26, 2022
Messages
150
Reaction score
57
Points
28
Great job, please add a video
Thank you
 

the money

Don't buy from me
Resident
Language
🇺🇸
Joined
Nov 26, 2022
Messages
53
Reaction score
29
Points
18
Do you mean we can't make mdma
 

HIGGS BOSSON

Expert
Joined
Jul 5, 2021
Messages
526
Solutions
1
Reaction score
732
Points
93
This experiment showed that it is quite difficult to obtain piperonal from black pepper in a simple way. We will look for other ways of synthesis.
 

kalf

Don't buy from me
Member
Joined
Sep 3, 2022
Messages
2
Reaction score
2
Points
3
I always tries this with no success (but smell piperonal)!
Also with permanganate in basic condition (but not cold) result in over oxidation but smell piperonal too.
You can tries periodate/permanganate mixture, i always see that, but not tries.
 

Macondor

Don't buy from me
Resident
Joined
May 14, 2023
Messages
42
Reaction score
9
Points
8
you sould try bubble with ozone in wet acetone the piperine directly
 
Top