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EXTRACTION GUIDE: Principles of Alkaloid Extraction (in relation to N,N-Dimethyltryptamine) Options
 
Psilosopher?
#1 Posted : 5/18/2016 2:43:53 PM

Don't Panic

Senior Member

Posts: 756
Joined: 28-Dec-2014
Last visit: 01-Oct-2022
Location: Everywhen
This is a comprehensive guide on extracting DMT. This is not really a tek, it's more of a methodology. This guide goes through basic chemistry and how it relates to DMT extractions with respect to people with zero chemistry knowledge. It is pretty thorough, going through basic calculations and principles involved in the whole process.

"This guide is NOT designed for novices who take shortcuts and are impatient to try the spice. This is written with the intention that every reader will thoroughly read and reread in order to fully understand the theory of acid-base extractions."

This is a constant work in progress. If the almighty benzyme can review this, I will be eternally grateful.

Please share your comments, criticisms, suggestions, recommendations, insults, death threats etc. All are welcome. There may or may not be a 4th edition in the works, depending on the reception this one gets.

NOW WITH THE BENZYME SEAL OF APPROVAL!





TABLE OF CONTENTS

1. Introduction
2. Chemistry 101
2.1. The Theory of Acid-Base Reactions
2.2. The Theory of pH
2.3. Molarity
2.4. What is Polarity?
2.5. So what does this have to do with DMT?
3. Extraction Methodology
4. Afterword
5. References





1. Introduction:


Purpose for this guide

This guide is designed for novices who aren’t familiar with chemistry. There are many novices who are very interested in DMT, but often get caught up in the scientific jargon. This, hopefully, will resolve that. This guide is NOT designed for novices who take shortcuts and are impatient to try the spice. This is written with the intention that every reader will thoroughly read and reread in order to fully understand the theory of acid-base extractions.

The secondary purpose for this guide is to provide a basic framework to conduct comparative assays on various plant material for comparison of active alkaloid levels.
NOTE: This guide isn’t meant to discourage novices from venturing into the world of extractions. The materials used here are all labware. Labware was used to maintain proper scientific procedures for the purpose of comparative analysis. Labware is not needed for extracting only. For guides on how to extract DMT with readily available materials, please consult MAX ION Tek or Earthwalkers ACRB Tek.

Which procedure should I use?

There are 2 main extraction techniques utilised in the extraction of DMT. The acid-to-base extraction (ATB) and the straight-to-base (STB) extraction. Both of these techniques rely on the precipitation of freebase DMT within a solvent. However, in order to obtain freebase DMT, it must be extracted from the plant material. DMT is soluble in acids, and so ATB is widely used. ATB is preferable to STB for only one circumstance; the species of plant material used. Typically, ATB is preferred when using fat laden plant species, such as Acacias. The DMT is located in the central vacuole of the plant cell, so in chemical processing, we try to break apart all the plant structures. This is the reason for acid simmering steps that last several hours. However, when you break apart the entire structure, it is inevitable that you will extract some unwanted compounds, most common being fats and oils. These are harmless, but lower the purity of the final product. In DMT extractions, we try to extract alkaloids only, and leaving behind all the plant fats and oils. It is impossible to know the constituents of your product by the naked eye, but all successful extractions have similar properties. In order to fully analyse your handiwork, it is recommended to run a thin-layer chromatography (TLC) on the sample. The DMT Nexus has recently organised TLC kits for the purpose of extraction analyses, which can be bought on the link below:

http://www.lunarlaboratories.com/


It is not necessary to analyse the product if it looks similar to other extracts, but it’s a technique that you have at your disposal should you wish to pursue an active interest in the extraction techniques of plant-based entheogens.

STB is typically used for not-so-fat-laden species, such as Mimosa hostilis. The procedure is exactly the same as ATB, without the acid.


2. Chemistry 101:


2.1 The theory of acid-base reactions


It would be career suicide for a chemistry lecturer to talk about acids and bases without mentioning Brønsted and Lowry. Brønsted and Lowry were two chemists who independently defined what an acid and a base is. But before we go into the Brønsted-Lowry definition, it’s better to understand the history of defining acids and bases. So first, we’ll discuss the Arrhenius definition. Svante Arrhenius was a Swedish chemist, who in the 1880’s described an acid as “A substance that produces H+ ions in aqueous solution”, and a base as “A substance that produces OH- in aqueous solution”.

_____________________


A practical explanation of this is HCl(g). Notice the subscript with a “g”? That means the compound is in a gaseous state. HCl(aq) is hydrochloric acid and HCl(g) is hydrogen chloride. In gaseous form HCl, is a covalent compound, i.e. it is not bound to anything else except itself. Once it enters the aqueous phase by being dissolved in water, it forms ionic bonds with water molecules. Therefore, hydrochloric acid is an ionic solution. However, when we say that “it” forms ionic bonds with water, we refer to the H+ ion only. Cl- does not play a part in acids or bases.

H+ binds to water to form an ionic compound called a hydronium ion. The chemical equation looks like this:



Chemists often use H+ and H3O+ interchangeably. They both denote the same thing, which is an H+ that has been dissolved in water.



A little factoid here; an H+ ion is just a proton. A hydrogen atom consists of 1 proton in the nucleus and 1 electron spinning around it. Once the atom loses the electron and becomes H+, it is left with only a proton.

So with this in mind, we’ll now move on to the currently accepted definition of acids and bases, as proposed by Brønsted and Lowry. The Arrhenius definition isn’t wrong, per se, it’s just that the Brønsted-Lowry definition is more correct, if that makes sense.
The Brønsted-Lowry definition is focused on the transfer of H+ ions rather than producing them. Since a H+ ion is a proton, Brønsted-Lowry defined an acid and base as this:

Acid: A proton donor
Base: A proton acceptor

You may ask, “how are the two definitions different?” For the purposes of DMT extraction, both are correct. But for advanced chemistry, the Arrhenius definition becomes a bit confusing, mainly because ammonia (NH3) acts as a base. This is why the Arrhenius definition doesn’t hold up to the Brønsted-Lowry definition. We won’t go into that, but if you’re interested, check out the acid-base section of any chemistry textbook.

So, what happens in an acid-base extraction? The best way to explain this is through a chemical equation.
The general rule is: acid + base --> salt + water
So if we use hydrochloric acid and sodium hydroxide, the equation is this:



So the products of this reaction are sodium chloride (table salt) and water. This only happens when equal concentrations of HCl and NaOH are mixed. If the HCl is in excess, for example, all of the NaOH will be consumed to make NaCl(aq), but there will still be some HCl in the solution. Therefore, the solution will still be acidic, albeit not as acidic.


2.2 The theory of pH


So now we’ve established what an acid is, but haven’t fully gone into what a base is. I’ve left it for this section since it is useful for explaining pH as well.
pH stands for “potential hydrogen”. On the pH scale, 7 is neutral. Lower than 7 is acidic, higher than 7 is basic or alkaline.

The calculation of pH is:



The pH scale is a logarithmic scale.



An increase of 1 on the pH scale corresponds to a decrease in the concentration of H3O+ by a factor of 10.


2.3 Molarity


Molarity is the concentration of a solution. If we say 2M HCl, that means the HCl has a concentration of 2 moles per litre. So, what is a mole? It is a small furry animal that likes to dig. It is also an SI unit of measurement that indicates amount of a substance. Moles are dependent on two things, the mass of the substance, and the molecular mass of the substance. What’s molecular mass? To understand this, we need to break down the Periodic Table of Elements.



Let’s zoom in to the first element, hydrogen.



The atomic number is used to order all the elements according to their atomic size. The symbol and name is self-explanatory. What we’re interested in is the atomic mass. Atomic mass is the same as molecular mass, which is also the same as molar mass. It is the mass of one mole of that element, in grams. So 1 mole of lithium is 6.941 grams.

Here is the calculation for number of moles:

Number of moles = Mass (in grams) / molecular mass


So if you have 3 grams of lithium, the calculation is:

Number of moles = 3 / 6.941
= 0.43 mol

To calculate molarity, the formula is:

Number of moles = concentration x volume (in litres)

OR

Concentration = number of moles / volume (in litres)


So let’s use a real life example pertaining to DMT to sum this all up. We want to make a 2M solution of NaOH.

First thing is to weigh out 2 moles of NaOH. Using the Periodic Table, 1 mole of NaOH is:

22.99 (molar mass of Na) + 15.99 (molar mass of O) + 1.008 (molar mass of H) = 39.99 g.

Since we want 2 moles, we double this amount. So 79.98 g. We then prepare 500ml of COLD distilled water. We slowly dissolve all of the NaOH into the water. Once it is fully dissolved, we check the volume again. It should be more than 500ml. We then bring up the volume to 1L with fresh distilled water (which does not mean add another 500ml). And there we go, we have just made a 2M NaOH solution.

It is important not to just add all of the NaOH into 1L of water. Just because it will dissolve doesn’t mean it won’t occupy space. If you added all of the NaOH into 1L of water, the final volume will be much higher than 1L.


2.4 What is polarity?


Polarity refers to the overall charge of the molecule. Polar means it is slightly charged, non-polar means it is not charged at all.


Water has an overall positive charge, it is polar. The charges on methane cancel out, so it is non-polar. Oxygen is diatomic, and only has one kind of atom, so it is non-polar.


This is essentially all there is to polarity in relation to extractions. The golden rule of polarity is:

Like dissolves like


Polar things will dissolve in other polar things. Non-polar things will dissolve in other non-polar things. Polar things will NOT dissolve in non-polar things. Non-polar things will NOT dissolve in polar things. I know, very scientific to use the word “things”.

There is A LOT more to polarity than what is said here, but this information should be enough for extractions. Again, if you’re interested in chemistry, pick up any chemistry textbook.


2.5 So what does this have to do with DMT?


When DMT is dissolved in hydrochloric acid (HCl), it forms DMT hydrochloride, when it is dissolved in acetic acid (CH3COOH), it forms DMT acetate. From here, the acid can then be neutralised with a base. In chemical terms:

acid + base --> salt + water


So hydrochloric acid and sodium hydroxide (NaOH) will look like this:



(If you recall, the subscript denotes the state the compound is in. Aq means aqueous. HCl is actually a gas and only becomes an acid when it is dissolved in water). NaCl is table salt. Once the acid has been neutralised, which includes the DMT hydrochloride, the DMT has nowhere else to go, and is floating around in the solution in freebase form. From here, a solvent is added to allow the DMT to migrate to a liquid that has a much lower freezing point than what conventional freezers can produce. This allows for the use of conventional household freezers to freeze precipitate the DMT within the solvent. This has 2 advantages over precipitation by evaporation. Firstly, it takes a much shorter amount of time. The time for a freeze precipitation is in the span of a day or two, but evaporation will take a few days to a few weeks to fully evaporate, depending on your climate. The second advantage is that you will be keeping the solvent. The solvent can be washed and used ad infinitum. Having to buy new solvent for every extract will end up costing a lot, if you have many failures or conduct many extracts.


3. Extraction Methodology


MATERIALS:

1) 100g of your plant material of choice. ACRB (Acacia confusa root bark) powder was used here.
2) Magnetic hotplate stirrer and stir bar
3) A strong magnet (to remove the stir bar)
4) Pyrex glass water bath
5) 1 x 1000ml Erlenmeyer flask
6) 1x ≥ 1000ml beaker
7) 500 mL measuring cylinder
8 ) 50 mL turkey baster
9) 1.0 ml eyedropper
10) Plastic funnel
11) Glass thermometer
12) 0.001M HCl stock solution (see first step in this section on how to prepare stock solution)
13) 5M NaOH stock solution (see first step in this section on how to prepare stock solution)
14) Naphtha or any non-polar solvent.
15) 80g of non-iodised NaCl (table salt).
16) Rectangular Pyrex dish (preferably with an airtight and watertight locking lid)
17) Razor blade


METHOD:

Preparing stock solution:

NOTE:
The HCl and NaOH were acquired from a hardware store. According to their packaging, the HCl states “Contains min. 320g/L of hydrochloric acid solution”. For NaOH, the packaging states “Contains: 98% Sodium hydroxide.”
1) Acquire 2 large and fairly sturdy HDPE containers. Distilled water containers found at hardware stores are suitable, but something a bit sturdier would be preferred. Pick a size appropriate for you. Recommended minimum is 5L capacity.
2) Thoroughly wash the containers. This is not necessary if the container was for distilled water. It is ideal to use the distilled water to make the stock solution in the first place.
3) Calculate the amounts required to get achieve desired concentration.

FOR HCl:

Assuming the concentration is 320g/L. A pH of 2-4 is ideal. For arguments sake, we will calculate a pH of 3. To achieve this pH we will use the following formula.



As can be seen on the scale in the pH section, the concentration is 10-3. This is equates to 0.001M HCl, which is why this particular concentration is specified in the Materials section. Now, we need to calculate the concentration of the undiluted HCl.

First, we calculate the number of moles:

Number of moles = Mass (in grams) / molecular mass
= 320 / 36.458 (atomic weight of H and Cl)
= 8.777…


Therefore, the number of moles in 1L is 8.777. Which means the molarity is 8.78M (rounded to 2 significant figures).

Now, we figure out how much we need to dilute the concentrated HCl solution.

Let’s say we want 10L of final stock solution.

We use the following formula (which we haven’t covered before):

C1V1 = C2V2


1 refers to the concentrated solution. 2 refers to the diluted solution. C is concentration and V is volume. For volume, it’s best to use mL.

So we have the following information: C1 = 8.77, C2 = 0.001, V2 = 10000 (10L). We want V1, which will tell us the volume of concentrated HCl to add into 10L of water.

8.77 x V1 = 0.001 x 10000
V1 = (0.001 x 10000) / 8.77
= 1.14 mL

Therefore, we add 1.14 mL into 10L of water. If you want to be ultra-scientific, you would add 1.14 mL of acid into 9.99886 L of water, since the concentrated solution is contributing to the overall volume. For our purposes, this isn’t necessary.

FOR NaOH:

Since NaOH is in a solid state, we will measure out the amount of NaOH needed. First we need to calculate the mass of 1 mole of NaOH.

1 mole of NaOH is:

22.99 (molar mass of Na) + 15.99 (molar mass of O) + 1.008 (molar mass of H) = 39.99 g.

We want 5 M, so we multiply this mass by 5, which gives us 199.95 grams per litre of water.

Preparing NaOH stock solution is a bit different to HCl, due to safety concerns. Pouring the NaOH granules into water will create an exothermic reaction, i.e. it releases heat. A LOT of it. So we cannot prepare the entire 10L in one go.
We must create the solution 1 litre at a time.
1) Prepare 500ml of COLD distilled water in a 1L borosilicate Erlenmeyer flask.
2) Slowly dissolve all of the NaOH into the water. It is advisable to add a small amount, and swirl the solution around to dissolve it. Then add more and swirl it again. Repeat until all NaOH is dissolved in solution. This will prevent a rapid increase in temperature.
3) Bring up the volume to 1L with fresh distilled water (which does not mean add another 500ml). An Erlenmeyer flask is not known for its accuracy in measuring volume, but for our intents and purposes, it will suffice.
4) Leave the flask to cool down. Pouring hot NaOH solution into a HDPE container may damage the container, so it’s best to err on the safe side.
5) Repeat steps 1-4 up till the desired volume is achieved.
This is a tedious process, but it is necessary. Given the quantities that are being used per extraction, this stock solution will last you a lifetime. Literally.
It is not required to be ultra-precise with preparing any solution for a DMT extract, but is recommended.

Acid-base extraction:


1) Place Pyrex glass water bath on magnetic hotplate stirrer.
2) Pour 600mL of 0.001M HCl stock solution into a 1000mL Erlenmeyer flask.
3) Drop the stir bar into the Erlenmeyer flask, by tilting the flask and allowing the stir bar to roll down the side. Do not drop it straight in.
4) Place Erlenmeyer flask in water bath. Fill the water bath with warm water until it is level with the solution in the flask.
5) Turn the heat and stir function on. Do not set either too high. Stir bar should be swirling the solution gently. The ideal temperature for the acid solution in this extraction is 60°C.
6) Slowly add 100g of ACRB powder into the flask using the plastic funnel. Try to prevent the powder from touching the sides of the flask. NOTE: It is likely that the stir bar will cease to spin when adding either too much powder or adding it too quick. In the event this happens, occasional manual swirling is required.
7) Leave the flask in the water bath for a minimum of 2 hours. If the stir bar ceases to spin, it is advisable to remove it now using the strong magnet. Simply place the magnet on the outside surface of the flask. Move the magnet around if it is not attracting the stir bar. Once it is attracted, drag the magnet along the surface of the flask and bring it up to the mouth of the flask. Once it is near the mouth, place the flask on a flat surface and use a gloved hand or tweezers to pick up the stir bar. Moving the magnet too rapidly can cause the stir bar to fall back down into the solution. This may cause damage to your flask. Finesse is key here.
8 ) After 2 hours, add 80g of non-iodised NaCl (table salt)
9) Slowly pour 100mL of 5M NaOH stock solution into the flask. The solution should go black. Turn the heat down a little bit. Ideal temperature is 50-60°C.
10) Leave the flask in the water bath for at least 1 hour. A longer wait time can be beneficial. Swirl occasionally if the stir bar ceases to move or was removed in step 7.
11) Remove stir bar if it hasn’t been removed already.
12) Add 80mL of naphtha or your non-polar solvent into the flask.
13) Pour entire contents of flask into the ≥ 1000ml beaker. Pour back and forth between the flask and beaker. This will thoroughly mix the 2 layers. The more you mix the layers, the more surface of the solvent will be exposed to the freebase DMT. Alternatively, if you have an alkali-resistant stopper, you can use it on the flask and shake. Do not shake too vigourously. There will be pressure buildup. Remember to remove the stopper after shaking to prevent pressure buildup.
14) Pour all the solution into the flask and let it sit in the water bath for 10 minutes or until both layers are clearly formed.
15) Careful decant this solution from the flask into the 500mL measuring cylinder. Since the non-polar solvent layer is on top, the majority of it will be poured into the cylinder. NOTE: Do not pour all of the solution in; the cylinder cannot hold it all. Pour as much as the cylinder can hold, giving some leeway to prevent spills.
16) Using a turkey baster, carefully pipette the top non-polar solvent into a rectangular Pyrex dish. Use two hands to keep the turkey baster steady, and pipette by touching the tip of the turkey baster to the side of the cylinder, just below the surface of the non-polar solvent. Stop when you’re getting too close to the basified layer.
17) Using the 1.0mL eyedropper, the remainder of the non-polar solvent can be pipetted. You can rest the palm of your pipetting hand against the side of the cylinder to keep it steady. Your other hand should hold the cylinder to prevent it from falling. The tip of the eyedropper should be resting against the inner surface of the cylinder and just under the surface of the solvent layer.
18 ) Repeat steps 12-17 thrice.
19) Place the rectangular Pyrex dish with the solvent into the freezer. Make sure the lid is locked in. If your dish does not come with a locking lid, then wrap the opening of the dish with cling film and place the entire dish into a large zip lock bag. Zip it up, and place in the freezer. Alternatively, you can let it evaporate completely in a dry place. If evaporating, skip to step 22.
20) Leave the dish in the freezer for a minimum of 24 hours. Do not disturb the dish before 24 hours are up, the crystals may not form properly otherwise.
21) After 24 hours, carefully decant the solvent into another container. It is recommended that you keep the solvent in another glass container for long term storage. This used solvent can be used ad infinitum.
22) Allow the dish to dry, either by focusing a fan into the interior, or letting it evaporate.
23) Scrape up the precipitate with a razor blade, and place on a small section of baking paper. This can be wrapped up, and stored in a cool, dark and dry place.


4. Afterword


So there you have it. You have successfully extracted N,N-Dimethyltryptamine. What you do with this sacred molecule is up to you. “With great power comes great responsibility” - Voltaire.
I would like to give thanks to all the people on the DMT-Nexus who have provided valuable information and support in regards to everything DMT related, and life in general.
A special thanks go out to cyb, chemisTryptaMan and Earthwalker who provided the basic structure of this methodology. All I did was tweak their work. This would not be possible without them. Thanks to some one (that's the username: some one) for pointing out some errors. Also a special shout out to resident chemical supergenius, benzyme.

5. References


cyb, chemisTryptaMan (2013). The cyb/CTM ‘Maximum Yield’ ATB Salt tek MAX ION. Wherever the hell cyb and CTM are from: DMT-Nexus

Earthwalker (2014). ACRB TEK 100g "PICS" (Newbie Friendly). Wherever the hell EW is from: DMT-Nexus

Tro, N. (2011). Chemistry. 2nd ed. Upper Saddle River, New Jersey: Pearson.

Various pictures taken from this textbook and stolen from Google Image searches. Sorry.


2016

Published exclusively on The DMT Nexus.


"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 

Good quality Syrian rue (Peganum harmala) for an incredible price!
 
Psilosopher?
#2 Posted : 5/19/2016 8:18:14 AM

Don't Panic

Senior Member

Posts: 756
Joined: 28-Dec-2014
Last visit: 01-Oct-2022
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Shameless bump. Would love some suggestions.

As per someones request in the chat (sincere apologies, I don't remember names), I also made a .mobi version for e-readers.

EDIT: DANG IT. .mobi is not a supported file. I'll upload it somewhere else.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
Chan
#3 Posted : 5/19/2016 9:32:31 AM

Another Leaf on the Vine


Posts: 554
Joined: 29-Jul-2013
Last visit: 26-Aug-2023
It's a solid piece of work, Bodhi, well done...but I'm struggling to see who it's aimed at? The chemistry primer is clear and useful for interested novices, but probably completely unnecessary for anybody who already has a hotplate, stirrer-bar and some one litre flasks lying around...? I know you said it's not designed for novices, but they're likely to be drawn more towards it, and it's potentially misleading/demotivating to give any novices reading it the impression that said items are necessary for any extraction. Also, the level of precision in your calculations for making molar solutions is probably overkill for what is actually required, particularly since you omit any reference to actually testing the pH of the solution at any point, and that's arguably more important. Your instruction to "decant the solvent down the drain" is not very Nexus. Finally, the TOC doesn't look right in all-caps, with 'PH' and not 'pH', and "EXTRACTION METHOGOLOY" (sic). That's not drawing me in to the rest of the work, or convincing me that I'm in safe, careful hands either, which is important for works claiming a certain level of authority.

Still, it must have taken you a lot of work, and I salute your efforts, in bringing light unto the world...Thumbs up

“I sometimes marvel at how far I’ve come - blissful, even, in the knowledge that I am slowly becoming a well-evolved human being - only to have the illusion shattered by an episode of bad behaviour that contradicts the new and reinforces the old. At these junctures of self-reflection, I ask the question: “are all my years of hard work unraveling before my eyes, or am I just having an episode?” For the sake of personal growth and the pursuit of equanimity, I choose the latter and accept that, on this journey of evolution, I may not encounter just one bad day, but a group of many.”
― B.G. Bowers

 
Psilosopher?
#4 Posted : 5/19/2016 10:46:48 AM

Don't Panic

Senior Member

Posts: 756
Joined: 28-Dec-2014
Last visit: 01-Oct-2022
Location: Everywhen
Chan wrote:
I'm struggling to see who it's aimed at? The chemistry primer is clear and useful for interested novices, but probably completely unnecessary for anybody who already has a hotplate, stirrer-bar and some one litre flasks lying around...? I know you said it's not designed for novices, but they're likely to be drawn more towards it, and it's potentially misleading/demotivating to give any novices reading it the impression that said items are necessary for any extraction.


It IS designed for novices. Mainly for people with zero chemistry knowledge who want to know what on earth they're doing. This is just a supplemental document to the other teks out there, which are far more accessible to most people. I will mention in the guide to refer to Max Ion and Earthwalkers teks if they don't want to be super scientific. The meat and potatoes of this guide is the Chemistry 101 section, not so much my methodology.

Chan wrote:
Also, the level of precision in your calculations for making molar solutions is probably overkill for what is actually required, particularly since you omit any reference to actually testing the pH of the solution at any point, and that's arguably more important. Your instruction to "decant the solvent down the drain" is not very Nexus. Finally, the TOC doesn't look right in all-caps, with 'PH' and not 'pH', and "EXTRACTION METHOGOLOY" (sic). That's not drawing me in to the rest of the work, or convincing me that I'm in safe, careful hands either, which is important for works claiming a certain level of authority.


Good point on not adding the testing of ideal pH. The calculations are meant to complement the theory and principles in the 101 section. It's not necessary, but thought that perhaps someone will find it useful. A lot of people want to know the basic chemistry of extractions. Many people would be swayed from learning by having to traverse through chemistry lectures and textbooks to find small snippets of information regarding extractions. All I did was put all those snippets of information in one place. Thanks for pointing out the typo, kicking myself in the head over that now. And I'll get rid of all caps for the TOC.


Once again, thanks for reviewing. Valuable feedback. Smile

"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
benzyme
#5 Posted : 5/20/2016 5:55:59 AM

analytical chemist

Moderator | Skills: Analytical equipment, Chemical master expertExtreme Chemical expert | Skills: Analytical equipment, Chemical master expertChemical expert | Skills: Analytical equipment, Chemical master expertSenior Member | Skills: Analytical equipment, Chemical master expert

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Thumbs up

fantastic, love the format. well done, sir. Big grin

side note: polarity with respect to non-protonated/deprotonated solvents is used to denote a dipole moment. polar solvents aren't always charged, ex. alcohols, aliphatic amines
rather they have an electronegative terminal moeity (such as an oxygen or nitrogen) flanked by carbons. on an electrostatic map, those moieties appear reddish, but the overall molecule charge is neutral.
what is written in that guide isn't incorrect, though, as technically the electronegative moiety draws more electrons to it (electron localization) giving it a slightly negative character.

because of that property, ionic complexes (salts) are fairly soluble in polar solvents, and insoluble in nonpolar solvents.

acids and bases are the polar, charged solvents.
"Nothing is true, everything is permitted." ~ hassan i sabbah
"Experiments are the only means of attaining knowledge at our disposal. The rest is poetry, imagination." -Max Planck
 
Psilosopher?
#6 Posted : 5/20/2016 7:13:51 AM

Don't Panic

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benzyme wrote:
Thumbs up

fantastic, love the format. well done, sir. Big grin

side note: polarity with respect to non-protonated/deprotonated solvents is used to denote a dipole moment. polar solvents aren't always charged, ex. alcohols, aliphatic amines
rather they have an electronegative terminal moeity (such as an oxygen or nitrogen) flanked by carbons. on an electrostatic map, those moieties appear reddish, but the overall molecule charge is neutral.
what is written in that guide isn't incorrect, though, as technically the electronegative moiety draws more electrons to it (electron localization) giving it a slightly negative character.

because of that property, ionic complexes (salts) are fairly soluble in polar solvents, and insoluble in nonpolar solvents.

acids and bases are the polar, charged solvents.


Thanks for the comment!

Is this electronegative terminal moeity the property that seemingly gives ethanol a simultaneous polar and non-polar end? All these words bringing back memories.

I'll write up the second edition as soon as I can.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
Praxis.
#7 Posted : 5/20/2016 6:21:08 PM

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This is great! Thanks for taking the time to put this together, Bodhisativa. Smile

I'm not super chemically inclined so I can't offer any practical suggestions, but I'm excited to go through it more thoroughly when I've got the time. I'm just getting into studying chemistry beyond the basics of a/b extractions so this is a neat and helpful resource for me.

Thumbs up
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But first, are you experienced?
 
smoothmonkey
#8 Posted : 5/20/2016 10:21:50 PM

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Thankyou so much for posting this! It was extremely useful for sharpening up my knowledge of basic chemistry. I only wish I would have read this before my extractions. They have all been successful but could have been more so if I had more of an understanding.

Nice work Thumbs up

-SM Smile

असतो मा सद्गमय ।
तमसो मा ज्योतिर्गमय ।
मृत्योर्मा अमृतं गमय ।
 
benzyme
#9 Posted : 5/21/2016 12:20:34 AM

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Bodhisativa wrote:
benzyme wrote:
Thumbs up

fantastic, love the format. well done, sir. Big grin

side note: polarity with respect to non-protonated/deprotonated solvents is used to denote a dipole moment. polar solvents aren't always charged, ex. alcohols, aliphatic amines
rather they have an electronegative terminal moeity (such as an oxygen or nitrogen) flanked by carbons. on an electrostatic map, those moieties appear reddish, but the overall molecule charge is neutral.
what is written in that guide isn't incorrect, though, as technically the electronegative moiety draws more electrons to it (electron localization) giving it a slightly negative character.

because of that property, ionic complexes (salts) are fairly soluble in polar solvents, and insoluble in nonpolar solvents.

acids and bases are the polar, charged solvents.


Thanks for the comment!

Is this electronegative terminal moeity the property that seemingly gives ethanol a simultaneous polar and non-polar end? All these words bringing back memories.

I'll write up the second edition as soon as I can.


yes.
the O in the hydroxyl group draws (covalently) electron localization from the carbons.
Carbon-carbon bonds have "nonspecific forces", aka van der waals. nonpolar, no dipole moment.

"Nothing is true, everything is permitted." ~ hassan i sabbah
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cyb
#10 Posted : 5/21/2016 9:13:01 AM

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Thumbs up Nice one Bodhisativa.

Looks good.
Please do not PM tek related questions
Reserve the right to change your mind at any given moment.
 
Psilosopher?
#11 Posted : 5/21/2016 1:00:02 PM

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Praxis. wrote:
This is great! Thanks for taking the time to put this together, Bodhisativa. Smile

I'm not super chemically inclined so I can't offer any practical suggestions, but I'm excited to go through it more thoroughly when I've got the time. I'm just getting into studying chemistry beyond the basics of a/b extractions so this is a neat and helpful resource for me.

Thumbs up

smoothmonkey wrote:
Thankyou so much for posting this! It was extremely useful for sharpening up my knowledge of basic chemistry. I only wish I would have read this before my extractions. They have all been successful but could have been more so if I had more of an understanding.

Nice work Thumbs up

-SM Smile



Thanks guys, glad to see people are finding it useful.



cyb wrote:

Thumbs up Nice one Bodhisativa.

Looks good.


Thanks mate! Couldn't have done it without your groundwork.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
Psilosopher?
#12 Posted : 6/2/2016 3:06:10 PM

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Posted the entire guide on the OP for people who can't access the attached files.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
some one
#13 Posted : 6/11/2016 12:14:06 AM

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Thumbs up

Don't know how hard it is to create, but wouldn't it be interesting to have an excel sheet which calculates pH for a list of common acids /bases used for DMT extraction per volume of water and combination acid /base? This will enable people to calculate the pH of a solution without pH meters or scientific knowledge.

Example:

In 750 ml water: (total volume of water when everything is in)
+ 20 ml white vinegar (5%) (used for the acidic stage of A/B)
+ 15 g NaOH (used for the basing stage of A/B)
= pH 10 (too low to extract DMT, you need to add more lye)

In 750 ml water:
+ 20 ml white vinegar (5%)
+ 50 g NaOH =

= pH 13 (this will work to extract DMT)

(pH's are not real, just to illustrate an example. Water pH = 7)

So, an excel with 6 inputs:
1) pH of water (default = 7)
2) volume of water
3) type of acid
4) amount of acid
5) type of base
6) amount of base

And 1 output:
1) final pH of solution

It will let you calculate the pH of just an base (without acid) and visa versa as well.

Thoughts? Anyone...
And no, I'm not the right person to make it Rolling eyes
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Psilosopher?
#14 Posted : 6/11/2016 2:07:14 AM

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Check this website out. I haven't used it, so I can't speak for it's accuracy. But it's just maths, so it should be accurate.

http://ph.lattelog.com/melange
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
some one
#15 Posted : 6/12/2016 12:06:18 PM

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Nice find, something like that yes. However, uhm, I meant calculations with weights in mg instead of mol/vol. To use that site you need to do additional hand calculations and know what you're doing to be able to calculate the pH when you add 50g NaOH to 750ml water..

Update: according to the link 0.1 mole/liter of NaOH = pH 13. I thought pH 13 is enough to covert dmt salt to freebase.
0.1 mole = 4 gram. So for 800ml of water only 3.2 gram NaOH needs to be added to get pH 13.
But you are using 200ml of 200g/liter concentration in 800ml liquid = 40g (1.25mole/liter = pH 14.10).
This is what all teks are using (around 50g bark). Something is not right..

Also, in the OP you didn't explain (calculate) why you want 5M of NaOH.
some = one | here = some | there = one
 
Psilosopher?
#16 Posted : 6/13/2016 5:15:24 AM

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some one wrote:
Nice find, something like that yes. However, uhm, I meant calculations with weights in mg instead of mol/vol. To use that site you need to do additional hand calculations and know what you're doing to be able to calculate the pH when you add 50g NaOH to 750ml water..

Update: according to the link 0.1 mole/liter of NaOH = pH 13. I thought pH 13 is enough to covert dmt salt to freebase.
0.1 mole = 4 gram. So for 800ml of water only 3.2 gram NaOH needs to be added to get pH 13.
But you are using 200ml of 200g/liter concentration in 800ml liquid = 40g (1.25mole/liter = pH 14.10).
This is what all teks are using (around 50g bark). Something is not right..

Also, in the OP you didn't explain (calculate) why you want 5M of NaOH.


Ah yeah, I didn't calculate why I needed 5M of NaOH. I just used that quantity to guarantee complete neutralisation. A bit overkill. Although this method works and gives plenty of spice, it is very wasteful of NaOH. I was in a bit of a rush with life in general when I wrote that part. I was planning on doing a titration to find out the optimal amount of NaOH required. I'll do just that, and edit the guide.

However, the MAX ION tek uses this:

4. Dissolve apprx 40g of NaOH (Lye) in a minimal amount of COOL filtered water (approx 100ml) and add to the acidic/saline mix.
A pH of 12+ is desired, so add more if necessary.



EDIT: I did the titration. I used 500ml of my stock solution HCl, and titrated against my stock solution of NaOH. HCl is 0.001M and NaOH is 5M.

Within 3mL of NaOH, the equivalence point was reached. At 5mL, the pH was 11. At 10mL the pH plateaud at 12, but I'm using a crappy pool pH meter. The guide has been edited.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
some one
#17 Posted : 6/13/2016 8:06:21 AM

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Quote:
EDIT: I did the titration. I used 500ml of my stock solution HCl, and titrated against my stock solution of NaOH. HCl is 0.001M and NaOH is 5M.

Within 3mL of NaOH, the equivalence point was reached. At 5mL, the pH was 11. At 10mL the pH plateaud at 12, but I'm using a crappy pool pH meter. The guide has bee edited.

Converting your titration experiment concentrations to grams:
HCL = 0.001 mole/liter * 0.5 l = 0.0005 mole = 0.0005 mole * 36.46 g/mole = 0.02 gram
NaOH = 5 mole/liter * 0.003 l = 0.015 mole = 0.015 mole * 39.9 g/mole = 0.60 gram

That's my point...

In a 500 ml solution, it takes 0.02 gram of HCL to reach pH 3. Adding 0.60 gram of NaOH to that solution raises the pH to 12 (you say).
Which makes sens as all it takes is 0.40 gram of NaOH to reach a pH 12 in 1000 ml of water (0.01 M) - according to the link you posted

Again, if that's so and 0.40 g of lye reaches pH 12 which is sufficient to extract, why are all teks using 50-100g of lye (factor 100-200 more)?
some = one | here = some | there = one
 
Psilosopher?
#18 Posted : 6/13/2016 9:15:34 AM

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some one wrote:
Quote:
EDIT: I did the titration. I used 500ml of my stock solution HCl, and titrated against my stock solution of NaOH. HCl is 0.001M and NaOH is 5M.

Within 3mL of NaOH, the equivalence point was reached. At 5mL, the pH was 11. At 10mL the pH plateaud at 12, but I'm using a crappy pool pH meter. The guide has bee edited.

Converting your titration experiment concentrations to grams:
HCL = 0.001 mole/liter * 0.5 l = 0.0005 mole = 0.0005 mole * 36.46 g/mole = 0.02 gram
NaOH = 5 mole/liter * 0.003 l = 0.015 mole = 0.015 mole * 39.9 g/mole = 0.60 gram

That's my point...

In a 500 ml solution, it takes 0.02 gram of HCL to reach pH 3. Adding 0.60 gram of NaOH to that solution raises the pH to 12 (you say).
Which makes sens as all it takes is 0.40 gram of NaOH to reach a pH 12 in 1000 ml of water (0.01 M) - according to the link you posted

Again, if that's so and 0.40 g of lye reaches pH 12 which is sufficient to extract, why are all teks using 50-100g of lye (factor 100-200 more)?


For my HCl stock solution, I pipette 1mL of 320g/L HCl into 10L of distilled water. That's brings the pH between 3-4.

As to why most teks use huge amounts of lye, I honestly don't know. Maybe because a lot of teks are based on other teks. My guide is heavily inspired from MAX ION and Earthwalkers. So I just used similar quantities.


I'll do another extraction using absolute minimal quantities of everything and I'll post my results.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
downwardsfromzero
#19 Posted : 6/25/2016 3:36:15 PM

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This is very nice. Could you address the seemingly bizarre numbering of the contents in the OP?
Bodhisativa wrote:
TABLE OF CONTENTS


1. Introduction
2. Chemistry 101
1. The Theory of Acid-Base Reactions
2. The Theory of pH
3. Molarity
4. What is Polarity?
5. So what does this have to do with DMT?
3. Extraction Methodology
4. Afterword
5. References

[sic]

(I see that it's due to the subsections of the chem 101, but would look slicker with indent or 2.1, 2.2 or some such. Plus you've sorted this in the pdf. Carry on! Big grin )




“There is a way of manipulating matter and energy so as to produce what modern scientists call 'a field of force'. The field acts on the observer and puts him in a privileged position vis-à-vis the universe. From this position he has access to the realities which are ordinarily hidden from us by time and space, matter and energy. This is what we call the Great Work."
― Jacques Bergier, quoting Fulcanelli
 
Psilosopher?
#20 Posted : 6/26/2016 7:03:12 AM

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downwardsfromzero wrote:
This is very nice. Could you address the seemingly bizarre numbering of the contents in the OP?
Bodhisativa wrote:
TABLE OF CONTENTS


1. Introduction
2. Chemistry 101
1. The Theory of Acid-Base Reactions
2. The Theory of pH
3. Molarity
4. What is Polarity?
5. So what does this have to do with DMT?
3. Extraction Methodology
4. Afterword
5. References

[sic]

(I see that it's due to the subsections of the chem 101, but would look slicker with indent or 2.1, 2.2 or some such. Plus you've sorted this in the pdf. Carry on! Big grin )


Thanks for pointing out the mistake! I've fixed it now.
"A common mistake that people make when trying to design something completely foolproof is to underestimate the ingenuity of complete fools."
 
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