Anhydroxylitol Ethylhexylglycerin ●
TL;DR. This ingredient is used mainly to support hydration and skin feel, combining humectant behavior with mild conditioning. It can also help preservative systems perform more efficiently in water-containing formulas.
What does Anhydroxylitol Ethylhexylglycerin do in a cosmetic formula?
This ingredient is used mainly to support hydration and skin feel, combining humectant behavior with mild conditioning. It can also help preservative systems perform more efficiently in water-containing formulas.
Is Anhydroxylitol Ethylhexylglycerin clean?
From a clean-beauty perspective, it is generally accepted but not completely friction-free because the preservative-boosting portion can be flagged by stricter standards. It is usually well tolerated, though higher use levels may cause stinging for very reactive skin.
Is Anhydroxylitol Ethylhexylglycerin sustainable?
This material can be partly bio-based when sugar and glycerin feedstocks are plant-derived, but the branched alkyl portion is often synthetic or petrochemical-derived. It is not considered highly persistent, though sourcing transparency and biodegradability data matter for cleaner positioning.
Is Anhydroxylitol Ethylhexylglycerin COSMOS-approved?
COSMOS alignment is mixed: the sugar-derived humectant portion can fit natural-origin criteria, while the preservative-booster ether portion is not always accepted unless supplied with approved natural-origin documentation. From a Green Chemistry view, it scores better when made from renewable feedstocks and used at low levels, but etherification processing and mixed sourcing keep it from a green tier.
How does Anhydroxylitol Ethylhexylglycerin work chemically?
Chemically, this is best understood as a pairing of a dehydrated pentitol-type humectant with an alkyl glyceryl ether that improves wetting, skin feel, and preservative efficiency. Typical use is low, often around 0.5% to 2% for hydration support, while the booster portion is commonly kept around 0.3% to 1%; it is broadly pH-flexible and compatible with emulsions and aqueous systems.
Last updated 2026-05-13