SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau ●
TL;DR. This ingredient is a humectant and skin-conditioning polymer that binds water at the skin surface. It also adds a light film-forming feel that can make formulas feel smoother and more cushioned.
What does SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau do in a cosmetic formula?
This ingredient is a humectant and skin-conditioning polymer that binds water at the skin surface. It also adds a light film-forming feel that can make formulas feel smoother and more cushioned.
Is SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau clean?
From a clean-beauty perspective, it is broadly accepted and not a common restricted-list concern. It is generally well tolerated, with low irritation potential in leave-on and rinse-off products.
Is SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau sustainable?
This material is commonly made by microbial fermentation rather than animal sourcing, which gives it a relatively clean supply-chain profile. It is a biodegradable polysaccharide salt and is not considered environmentally persistent.
Is SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau COSMOS-approved?
It is generally compatible with COSMOS-natural and can be used in COSMOS-organic formulas when made through approved fermentation and processing routes, though it usually does not count as organic content. Its fit with Green Chemistry is strong when fermentation-derived, water-processed, and used without problematic solvents or residues.
How does SODIUM HYALURONATE. Soft Reset AHA Exfoliating Solution: Water/Aqua/Eau work chemically?
The molecule is a high-water-binding, linear anionic polysaccharide made of repeating sugar-based units, with different molecular weights giving different sensory and film-forming effects. Typical use levels are about 0.01% to 2%, and it is usually most stable in mildly acidic to neutral formulas, with strong acid, strong alkali, or high electrolyte loads able to reduce viscosity or performance.
Last updated 2026-05-14