Rice Bran-Derived Phytic Acid

TL;DR. This ingredient primarily acts as a chelating agent, binding trace metal ions that can destabilize color, scent, texture, or preservative performance. It can also support antioxidant systems by reducing metal-catalyzed oxidation in water-based formulas.

What does Rice Bran-Derived Phytic Acid do in a cosmetic formula?

This ingredient primarily acts as a chelating agent, binding trace metal ions that can destabilize color, scent, texture, or preservative performance. It can also support antioxidant systems by reducing metal-catalyzed oxidation in water-based formulas.

Is Rice Bran-Derived Phytic Acid clean?

From a clean-beauty perspective, it is generally well-regarded because it is plant-derived, low-allergen, and not a common restricted-list concern. Its main formulation caveat is acidity, which can be noticeable at higher levels or in low-pH products.

Is Rice Bran-Derived Phytic Acid sustainable?

This material is commonly obtained from grain-processing byproducts, which gives it a favorable sourcing profile when traceability is in place. It is water-soluble and expected to biodegrade, with low concern for long-term environmental persistence.

Is Rice Bran-Derived Phytic Acid COSMOS-approved?

It is generally compatible with COSMOS-natural and COSMOS-organic standards when sourced from approved plant feedstocks and processed with permitted methods. It fits Green Chemistry principles through renewable sourcing, efficient use of agricultural byproducts, and a role that can improve formula stability at low use levels.

How does Rice Bran-Derived Phytic Acid work chemically?

The molecule is a highly phosphorylated cyclic polyol with six phosphate groups, which gives it strong affinity for iron, calcium, magnesium, and other multivalent metal ions. Typical use is about 0.05% to 0.5% as a chelator or stabilizer, and formulators account for its low pH and potential interactions with cationic conditioning agents or mineral-rich systems.

Last updated 2026-05-13