Saw Palmetto CO2 Extract

TL;DR. This ingredient is a lipophilic botanical active used mainly for scalp, hair, and oil-control products, where it supports conditioning and helps balance the look of excess sebum. It is usually added as an oil-soluble extract rather than as a structural emulsifier or preservative.

What does Saw Palmetto CO2 Extract do in a cosmetic formula?

This ingredient is a lipophilic botanical active used mainly for scalp, hair, and oil-control products, where it supports conditioning and helps balance the look of excess sebum. It is usually added as an oil-soluble extract rather than as a structural emulsifier or preservative.

Is Saw Palmetto CO2 Extract clean?

From a clean-beauty perspective, this ingredient is generally well accepted and is not a common restricted-list concern. Sensitivity is possible with any concentrated botanical extract, so formulas should use it at appropriate levels and account for individual skin reactivity.

Is Saw Palmetto CO2 Extract sustainable?

This material comes from a renewable plant source, and pressurized gas extraction can reduce reliance on conventional petrochemical solvents. The main sustainability question is sourcing, since berry harvesting should be traceable and managed to limit pressure on local ecosystems and wildlife food supplies.

Is Saw Palmetto CO2 Extract COSMOS-approved?

It can be compatible with COSMOS-natural and COSMOS-organic frameworks when the plant source, extraction method, and any carriers meet the standard. It aligns well with Green Chemistry when made through solvent-residue-free extraction, renewable sourcing, and low-waste processing.

How does Saw Palmetto CO2 Extract work chemically?

The molecule profile is not a single compound, but a lipid-rich mixture containing fatty acids, phytosterols, and related nonpolar plant constituents. Typical cosmetic use is often in the low percentage range, commonly around 0.1% to 2%, and it is best incorporated into the oil phase or solubilized system with protection from excessive heat and oxidation.

Last updated 2026-05-13