Glyceryl Heptanoate Polycitronellol Acetate

TL;DR. This ingredient is primarily an emollient and film-former, used to add slip, cushion, gloss, and a flexible skin or hair feel. It can also help disperse pigments and improve payoff in anhydrous color cosmetics.

What does Glyceryl Heptanoate Polycitronellol Acetate do in a cosmetic formula?

This ingredient is primarily an emollient and film-former, used to add slip, cushion, gloss, and a flexible skin or hair feel. It can also help disperse pigments and improve payoff in anhydrous color cosmetics.

Is Glyceryl Heptanoate Polycitronellol Acetate clean?

From a clean-beauty perspective, this ingredient is generally well positioned because it is used as a biodegradable, bio-based alternative to conventional silicone-like sensorial agents. The main quality watchpoint is supplier control of residual low-molecular fragrance-like impurities, which can matter for very sensitive-skin positioning.

Is Glyceryl Heptanoate Polycitronellol Acetate sustainable?

This material is commonly derived from renewable terpene and plant-based fatty feedstocks rather than petroleum-only inputs. It is designed for improved biodegradability and lower environmental persistence compared with many conventional synthetic film-forming oils.

Is Glyceryl Heptanoate Polycitronellol Acetate COSMOS-approved?

It is permitted under COSMOS Natural when supplied in a compliant grade, while COSMOS Organic status depends on the final formula and organic-content accounting. Its Green Chemistry fit is relatively strong because it uses renewable feedstocks, ester chemistry, and a biodegradable design profile.

How does Glyceryl Heptanoate Polycitronellol Acetate work chemically?

The molecule is a hydrophobic ester-functional liquid polymer, which explains its combination of oil compatibility, spread, gloss, and flexible film formation. It is typically used around 1 to 10% for sensorial modification and film benefits, with higher levels possible in anhydrous color systems, and ester bonds are generally most stable away from strongly acidic or strongly alkaline conditions.

Last updated 2026-05-13