ACTIVE GLOW : ETHYL ACETATE

TL;DR. This ingredient is a fast-evaporating solvent used to dissolve film-formers, resins, colorants, and fragrance components, especially in nail products and some fragranced formulas. It helps product spread, then flashes off quickly after application.

What does ACTIVE GLOW : ETHYL ACETATE do in a cosmetic formula?

This ingredient is a fast-evaporating solvent used to dissolve film-formers, resins, colorants, and fragrance components, especially in nail products and some fragranced formulas. It helps product spread, then flashes off quickly after application.

Is ACTIVE GLOW : ETHYL ACETATE clean?

From a clean-beauty perspective, this ingredient is generally accepted but not friction-free because it is a volatile solvent with a strong odor and can be drying or irritating around the eyes, nose, or compromised skin. It is not usually treated like a major restricted-list ingredient, but sensitive-skin standards may view high-use nail or fragrance applications more cautiously.

Is ACTIVE GLOW : ETHYL ACETATE sustainable?

This material may be made from petrochemical or bio-based feedstocks, and supply-chain quality depends on the route used. It is readily biodegradable and does not meaningfully bioaccumulate, but it contributes to VOC emissions during manufacture and use.

Is ACTIVE GLOW : ETHYL ACETATE COSMOS-approved?

This ingredient can align with COSMOS when it meets the standard’s sourcing and processing requirements, particularly for approved solvent uses and acceptable feedstocks. Its strongest Green Chemistry fit is ready biodegradability and potential bio-based production, while VOC release and flammability are the main compromises.

How does ACTIVE GLOW : ETHYL ACETATE work chemically?

The molecule is a small, polar ester with a boiling point around 77°C, low water miscibility, and good solvency for many organic resins and fragrance materials. It is commonly used at high levels in nail removers and nail coatings, remains most stable near neutral conditions, and can hydrolyze under strong acid or alkaline conditions.

Last updated 2026-05-14