Ozonized Ethyl Linoleate ●
TL;DR. This ingredient is primarily a skin-conditioning lipid and reactive oxygen carrier used in creams, gels, and targeted skin-care products. It can also support deodorizing and blemish-care positioning through its oxidizing byproducts.
What does Ozonized Ethyl Linoleate do in a cosmetic formula?
This ingredient is primarily a skin-conditioning lipid and reactive oxygen carrier used in creams, gels, and targeted skin-care products. It can also support deodorizing and blemish-care positioning through its oxidizing byproducts.
Is Ozonized Ethyl Linoleate clean?
From a clean-beauty perspective, it is not a common restricted-list ingredient, but its peroxide chemistry gives it more irritation and sensitization caveats than a simple emollient oil. Well-made grades require tight control of peroxide value, residual oxidants, odor, and oxidation byproducts.
Is Ozonized Ethyl Linoleate sustainable?
This material can be made from plant-derived fatty acids and bio-based ethanol, so its feedstock profile can be mostly renewable. It is expected to be biodegradable, but the added oxidation step and quality-control burden make its sustainability profile less simple than unmodified vegetable oils.
Is Ozonized Ethyl Linoleate COSMOS-approved?
COSMOS alignment is conditional, since it may fit COSMOS-natural only when the feedstocks and oxidation process meet the standard’s allowed-process rules, and it is not a typical COSMOS-organic material. From a Green Chemistry view, renewable sourcing and biodegradability are positives, while reactive peroxide chemistry and extra processing are the main compromises.
How does Ozonized Ethyl Linoleate work chemically?
The molecule is an unsaturated C18 fatty-acid ethyl ester that has been chemically transformed at its double bonds into peroxide-rich oxygenated structures, including ozonide-type species. Formulators usually treat it as an active lipid rather than a neutral emollient, with stability depending on cool storage, low light exposure, antioxidant strategy, and compatibility with reducing agents or easily oxidized fragrance components.
Last updated 2026-05-13