Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite

TL;DR. This ingredient functions as an inorganic black colorant and opacity adjuster in makeup, skin care, and personal care products. It can also help tune shade depth and visual payoff in pressed powders, creams, gels, and anhydrous formulas.

What does Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite do in a cosmetic formula?

This ingredient functions as an inorganic black colorant and opacity adjuster in makeup, skin care, and personal care products. It can also help tune shade depth and visual payoff in pressed powders, creams, gels, and anhydrous formulas.

Is Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite clean?

From a clean-beauty perspective, this material is generally well accepted because it is inert, non-sensitizing for most users, and not a common allergen. The main quality consideration is cosmetic-grade purity, especially controls for trace heavy metals and particle-size specifications.

Is Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite sustainable?

This material is mineral-based and partly manufactured rather than farm-derived, so it is not renewable or biodegradable in the way plant materials are. Its it mineral component can reduce reliance on mined shimmer minerals, though production still has energy and raw-material impacts.

Is Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite COSMOS-approved?

This ingredient is generally compatible with COSMOS-natural and COSMOS-organic color-cosmetic frameworks when it meets permitted mineral colorant and purity requirements. Its Green Chemistry fit is strongest on stability, low reactivity, and low use levels, but weaker on renewability and biodegradability.

How does Iron Oxides Ci 77499. Ixia 491CM: Synthetic Fluorphlogopite work chemically?

This compound is an insoluble inorganic pigment system, combining a black metal-oxide color phase with a platelet mineral substrate to improve dispersion, opacity, and visual texture. Typical colorant use varies widely by product type, often below 1% for tinting and higher in color cosmetics, and it is stable across normal cosmetic pH ranges with no meaningful oxidation concern in finished formulas.

Last updated 2026-05-13