Dipentaerythrityl Hexa-C5-9 Acid Esters ●
TL;DR. This ingredient is a nonvolatile emollient and binder that gives slip, cushion, gloss, and pigment adhesion in lip, complexion, and cream formulas. It also helps thicken oil phases and reduce greasiness compared with many simple oils.
What does Dipentaerythrityl Hexa-C5-9 Acid Esters do in a cosmetic formula?
This ingredient is a nonvolatile emollient and binder that gives slip, cushion, gloss, and pigment adhesion in lip, complexion, and cream formulas. It also helps thicken oil phases and reduce greasiness compared with many simple oils.
Is Dipentaerythrityl Hexa-C5-9 Acid Esters clean?
In clean-beauty screening, this ingredient is generally treated as a low-sensitization synthetic emollient rather than a major restricted-list concern. The main caveat is documentation, since residual acid, catalyst, and solvent controls depend on manufacturing quality.
Is Dipentaerythrityl Hexa-C5-9 Acid Esters sustainable?
Most supply is made by esterification of a synthetic polyol with fatty acids that may be petrochemical or oleochemical, depending on supplier. This ingredient of this type are not volatile and are expected to break down more readily than silicones, but renewable-content claims need supplier-specific proof.
Is Dipentaerythrityl Hexa-C5-9 Acid Esters COSMOS-approved?
It is not a straightforward COSMOS-organic or COSMOS-natural fit in typical commercial form because the polyol backbone and acid feedstocks must meet natural-origin and allowed-processing rules. From a Green Chemistry view, it scores best when made from renewable acids by direct esterification, but synthetic feedstocks and process auxiliaries keep it in a partial-alignment tier.
How does Dipentaerythrityl Hexa-C5-9 Acid Esters work chemically?
The molecule is a high-molecular-weight, multi-arm ester built from a polyol core fully esterified with short-to-medium aliphatic carboxylate chains. It is typically used around 1 to 20 percent, is oil-soluble and water-insoluble, and is generally stable in anhydrous systems but can slowly hydrolyze under strong acid or alkaline conditions.
Last updated 2026-05-13