Corallina Officinalis Extract ●
TL;DR. This ingredient is used as a skin-conditioning and remineralizing extract, adding water-binding polysaccharides, trace minerals, and a soft afterfeel to formulas. It is most often included in serums, moisturizers, masks, and rinse-off products for texture and skin-feel support.
What does Corallina Officinalis Extract do in a cosmetic formula?
This ingredient is used as a skin-conditioning and remineralizing extract, adding water-binding polysaccharides, trace minerals, and a soft afterfeel to formulas. It is most often included in serums, moisturizers, masks, and rinse-off products for texture and skin-feel support.
Is Corallina Officinalis Extract clean?
From a clean beauty perspective, it is generally well tolerated and not a common restricted-list ingredient. The main review points are supplier purity data, residual solvents, preservation system, and trace marine contaminants rather than the extract itself.
Is Corallina Officinalis Extract sustainable?
This ingredient is marine-derived and typically biodegradable, with a lighter profile when collected or cultivated under controlled, documented conditions. Sustainability depends on responsible harvesting, habitat protection, and traceability because unmanaged collection can pressure coastal ecosystems.
Is Corallina Officinalis Extract COSMOS-approved?
It is generally compatible with COSMOS-natural when produced with approved physical processes or permitted solvents, and COSMOS-organic alignment depends on compliant sourcing and certification of the raw material. It fits Green Chemistry best when extracted with water, glycerin, or other approved low-concern solvents and supplied with clear harvest documentation.
How does Corallina Officinalis Extract work chemically?
This material is a complex botanical-marine extract containing polysaccharides, amino acid fractions, mineral salts, and calcium-rich residues from a calcified source. It is usually used at low cosmetic active levels, often below 5%, and is typically formulated into the water phase with stability driven more by the solvent system, preservative, pH, and electrolyte load than by a single defined molecule.
Last updated 2026-05-13