Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate ●
TL;DR. This ingredient is mainly a structuring and texture agent for anhydrous formulas, helping thicken oils, stabilize sticks, and improve payoff in lip, balm, and color cosmetics. It can also add emollience and film feel without a greasy finish.
What does Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate do in a cosmetic formula?
This ingredient is mainly a structuring and texture agent for anhydrous formulas, helping thicken oils, stabilize sticks, and improve payoff in lip, balm, and color cosmetics. It can also add emollience and film feel without a greasy finish.
Is Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate clean?
From a clean-beauty perspective, it is generally low-irritation and not a common restricted-list concern. The main caveat is that it is a highly processed ester blend, so brands with very strict natural-origin rules may treat it less favorably than simpler plant waxes or oils.
Is Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate sustainable?
This material is typically made from fatty acid feedstocks plus a polyol backbone, so sourcing can be partly plant-derived but process-dependent. It is not known for major persistence concerns, though its large waxy structure means biodegradation is expected to be slower than small, simple esters.
Is Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate COSMOS-approved?
It may fit some natural-origin frameworks if the feedstocks and esterification process meet the standard, but COSMOS acceptance is supplier- and documentation-dependent rather than automatic. Its Green Chemistry profile is moderate, with useful low-volatility performance and possible renewable fatty acids, balanced by synthetic processing and limited transparency on feedstock origin.
How does Tocopheryl Acetate Mint: Dipentaerythrityl Tetrabehenate/Polyhydroxystearate work chemically?
The molecule is a high-molecular-weight, branched wax ester network built from a polyol core and long-chain fatty acid portions, which gives it strong oil-gelling and payoff-modifying behavior. It is used mainly in anhydrous systems, is broadly stable across normal cosmetic temperatures, and is selected for compatibility with oils, pigments, waxes, and stick-format structuring systems.
Last updated 2026-05-15