Blotters vs drops; How to pick your form

Blotters vs drops; how to pick your form when conducting research. Is one superior to the other? If so, why?

And what is the difference between the two? Is it all a matter of personal preference? Or should researchers stick to drops?

And when researching with blotters or drops, will the substance make a difference? For example, is 1CP-LSD more effective as a blotter or as a liquid drop?

Let's get to the bottom of these questions.

What are Research Chemicals?

It should go without saying that research chemicals are not for human consumption. So when it comes to blotters vs drops and how to pick your form, keep in mind this is for educational purposes only.

Typically, research chemicals refer to a category of compounds ranging from Tryptamines to Lysergamides. For the purposes of this article, we'll focus more on Lysergamides.

You may wonder why someone would experiment with Lysergamides in a research setting. The answer will depend on who you ask, but generally, we can make a comparison to model trains.

Why do people like model trains? You can't ride in them. They take up a fair amount of space. But for many, it's a passionate hobby that allows them to perform little feats of engineering.

In the same way, research chemicals give us insight into the molecular structure of interesting compounds. Just as the model train enthusiast doesn't attempt to ride their trains or have them pick up passengers from one town to the next, researchers don't consume Lysergamides. 

Instead, they try to understand them on a chemical level. Hence why, it's essential to decide how to pick your form. Should you work with drops? Or blotters?

What are Drops?

When it comes to blotters vs. drops and how to pick your form, drops are good for storing the substance in the long term. For example, the shelf life of Lysergamide drops can last months with proper storage. 

Researchers dissolve the substance into a solvent to make drops. LSD crystals, for example, can be dissolved into alcohol to create liquid LSD.

A dropper bottle contains a specific number of doses; for many researchers, drops are preferable to blotter paper. One primary reason for this is that drops allow for volumetric dosing.

Volumetric dosing involves dissolving a Lysergamide (or other substance) into liquid so researchers can figure out the concentration of the substance on a milliliter basis.

Researchers must know the exact amount of milligrams they're working with, and drops are essential for that. If researchers dissolve 10 milligrams of LSD into 100 milliliters of solvent, then they know each milliliter will contain 100 micrograms of LSD.

What are Blotters?

A blotter is a small piece of absorbent paper that has been soaked in a liquid research chemical. When it comes to blotters vs. drops and how to pick your form, blotters have some benefits that drops do not.

The main benefit comes from its safety profile. While we do not condone human consumption of research chemicals, sometimes these chemicals can find their way onto your skin.

When dealing with very potent Lysergamides, you do not want to accidentally get the liquid form on your skin. For this reason, blotters are usually considered the safer option.

They are also easier to store. Instead of dealing with bottles usually made of glass, you can slide sheets of blotter paper next to your textbooks.

That said, as soon as researchers apply Lysergamides to blotter paper, they are subject to light, air, heat, and moisture. Some estimate that blotter deterioration can occur rapidly, but others dispute this.

Others suggest the type of Lysergamide analog may affect its chemical stability over the long term.

Blotters vs drops; How to pick your form for the Ehrlich reagent test

Now that you know the difference between blotters vs drops, we can figure out how to pick your form.

The first question you should ask yourself is, what kind of research will you be doing? If you're performing an Ehrlich reagent test, you'll want blotters.

The Ehrlich reagent is a method to investigate the purity of Lysergamides. It involves cutting a piece from your blotter sheet. This tab only needs to be the size of a matchstick head. So not very big.

You'll want to place the tab on a ceramic plate, then hold the regent bottle about two inches (about five centimeters) above your tab.

Squeeze one drop of Ehrlich reagent onto your tab. Be sure to keep the tip of the bottle from touching the tab to prevent contamination. Wait for five or ten minutes to see if the reagent liquid turns the blotter a purple or pink colour.

Using the Ehrlich reagent test on drops or pure Lysergamide crystals is possible. But we find blotters are the best form for this particular test.

If you are using liquid Lysergamides, you'll need a testing vial. It goes without saying that you should also wear gloves. Some Lysergamides, like 1P-LSD, for example, are known to react slower than others. You may only notice colour changes only after a few hours.

Blotters vs drops; How to pick your form

Blotters vs drops; how to pick your form when conducting research. Is one superior to the other? It'll depend on the kind of research you're doing.

As mentioned, the Ehrlich reagent test is easier to perform on blotters (and perhaps less risk of exposure). But you don't need blotters to perform this specific test.

Blotters take up little storage space if that's a concern in your lab. That said, some prefer working with a dropper bottle versus large sheets.

Drops are essential if you plan on doing volumetric dosing. But a lot also depends on what kind of compounds you're researching. We’ve covered Lysergamides as they are the most popular compounds to find in blotter form.

But in the grand scheme of things, when it comes to blotters vs drops and how to pick your form, it's going to come down to personal preference and the type of research you're doing.