THC-O Vs. Delta 9: What Should You Know?

The topic of how a cannabinoid is “created” is not often asked. They are usually rather basic since they are “produced” by the cannabis plant. But a few molecules are byproducts of phytocannabinoids and some other form of chemical catalyst, which means they aren’t entirely natural in origin. THC-O Acetate comes in this classification. So, what precisely is the potency of tetrahydrocannabinol acid-O, and how this brand-new and fascinating cannabinoid is manufactured remains a mystery.


THC-O potency against Delta-9 THC: Delta-9 THC versus THC-O

We already know that THC and tetrahydrocannabinol acid-O are chemically identical, yet that minor variance in molecular structure translates into a significant difference in strength compared to other cannabis compounds. It may seem like a stretch, but this is pretty typical in chemistry. For example, consider the difference between carbon monoxide (CO) and carbon dioxide (CO2). 

The former is a created possibly deadly molecule, and the latter is a natural gas essential for plant and human existence. H2O against H2O2, or water versus hydrogen peroxide, is another well-known comparison. Minor chemical alterations may make a significant impact on the outcome.

The strength of tetrahydrocannabinol acid-O is so great that we consider it three to four times stronger than Delta 9 THC to provide a particular example. There are times when THC, no matter how fantastic it is, does not seem to be potent enough to complete the work at hand, mainly when you use it to treat chronic pain, digestive issues, and other health problems. 

Tetrahydrocannabinol acid-O is not only far more potent than THC, but human systems also recognize it as a whole separate chemical. It implies that if you have developed a tolerance to Delta 9 THC, you may utilize tetrahydrocannabinol acid-O instead of it.

What Tetrahydrocannabinol acid-O is, and how is it Made?

In a nutshell, Tetrahydrocannabinol acid-O is an analog of THC, which means that it has a chemical structure that is similar to THC, but, as is frequently the case in science, tiny alterations may result in significant variances. 

Tetrahydrocannabinol acid-O is an abbreviation for THC-O-Acetate, also known as THC Acetate/ATHC. People write and refer to it as THC-O in the scientific literature. Important to distinguish between ATHC and THCA, the parent molecule of THC present in raw plants that have not yet been decarboxylated: ATHC is the active ingredient in cannabis.

The A in tetrahydrocannabinol acid (THCA) stands for acid, not acetate, in cannabinoids generated from acetate (ATHC). Although THCA is a naturally occurring phytocannabinoid, tetrahydrocannabinol acid-O is not. We can make THC-O by converting it. To make Tetrahydrocannabinol acid-O, a synthetic cannabinoid, you must perform it in a laboratory environment, ideally under the supervision of an expert chemist.

Let’s go back to the beginning and speak about the relationship between THCA and tetrahydrocannabinol acid-O. Now it’s time to consider how you can convert THCA to Tetrahydrocannabinol acid-O, which we have previously discussed in terms of the differences between the two (acid versus acetate). It is a sophisticated chemical process that trained chemists should only try; This is not a procedure that could be carried out safely in a home laboratory.

We get Cannabinoids in the carboxylic acid form in the raw cannabis plant’s leaves. Carboxylic acids are an organic chemical family. A single bond connects a carbon atom to a hydroxyl group. In contrast, a double bond connects an oxygen atom with the carbon atom attached to the hydroxyl group by a single glue. When exposed to heat, the compounds shed their carboxylic acid groups and transform into cannabinoids that most customers already know.


Is THC-O a more potent psychoactive drug than Delta-THC-9?

Yes. It has a potency that is roughly three times greater than THC. It only takes a minimal dose of the drug to cause hallucinogenic effects. People classify Tetrahydrocannabinol acid-O as a prodrug. This implies that it will not become active until after metabolizing the liver. Once you digest the medicine, the only thing left is essentially D9.

The high absorption rate of tetrahydrocannabinol acid-O is one of the factors contributing to its potent effects. THC-O acetate has a much higher bioavailability than its delta-9 analog. After absorption, the functional group (-O) gets removed. As a result, THC produces its common effects but much more than usual. Despite this, Tetrahydrocannabinol acid-O is not nearly as powerful as THCP, despite its strength.

The recommended dose of THC-O is as follows:

It is dependent on how you consume the product. Even though it is a relatively young market, you may buy the following items:

  • THC-O tinctures are cannabis tinctures that contain THC.
  • THC-O distillate is a psychoactive cannabinoid.
  • THC-O e-liquid for vaping
  • THC-O gummies are a kind of candy that contains THC.

First and foremost, keep in mind that it contains three times the THC found in legal marijuana. Consequently, one-third of the delta-9-THC you would ordinarily invest in a delta-9-THC product should be used.

If you’re going to smoke or vape tetrahydrocannabinol acid-O, keep to a dose of up to 0.5mg. When utilizing it in oil or foods, up to 3mg per serving is recommended. Going over and above these limits will almost certainly result in drunkenness. 

If you smoke more than 5 mg or eat more than 10 mg orally, you will undoubtedly experience psychedelic effects, which may be unpleasant or even scary. We also recommend that beginners avoid using tetrahydrocannabinol acid-O at all costs.

Bottom Line

THC-O is a fascinating molecule to study. According to our knowledge, apart from being four times stronger than Delta 9, which is currently the most powerful of all THCs, it is also very pure and has an almost infinite medicinal potential. Even though you may be eager to give it a go, since it’s too hazardous to attempt at home, your best chance is to look into some of the current items hitting the shop shelves.