June 14, 2024

What Is H4CBD? what you know about

With some sources boasting that it is 100 times more effective than CBD, it’s no wonder that the hydrogenated cannabinoid H4CBD has been getting a lot of attention recently. In this guide, we’ll examine H4CBD from every angle and explain how to find the best H4CBD products available on the market. Dive into our in-depth guide to H4CBD: What It is, what it does, and how it compares to CBD.

What is the cannabinoid H4CBD?

Hexahydrocannabidiol, or H4CBD, is a synthesized cannabinoid created by adding four hydrogen atoms to the CBD molecule. The process used to make H4CBD is very similar to making margarine from vegetable oil.

What does H4CBD do?

The exact properties of H4CBD remain unknown, but the limited information available on this cannabinoid indicates that it has considerably higher affinity for your brain’s CB1 neuroreceptors than conventional CBD. Since CBD normally does not typically have any affinity for CB1 receptors, it is unclear what to make of this data. Nonetheless, people who use H4CBD generally report that it feels like CBD but with considerably higher psychoactivity.

Is H4CBD the same thing as CBD?

No. H4CBD and conventional CBD share many similarities, but they are not the same molecule. Just to start, these two cannabinoids offer completely different experienced effects, and from its chemical structure down to its method of procurement, CBD is fundamentally different from H4CBD.


Both CBD and H4CBD come from hemp. While CBD is a direct hemp derivative, however, H4CBD undergoes a process of transformation, including hydrogenation, to reach its final form.

As a result, H4CBD must technically be considered a synthetic cannabinoid even if it is only as synthetic as margarine. It’s technically possible to synthesize CBD as well, but with this cannabinoid so abundant in hemp, there is no incentive to do so.


H4CBD has been structurally altered to take on a different form from CBD. Four additional hydrogen atoms have been added to the “head” of the molecule, changing its inherent properties.