Manganese Violet/Ci 77742 ●
TL;DR. This ingredient is an inorganic colorant used to give decorative cosmetics, soaps, and personal care products a violet to purple shade. It is mainly used for shade building in powders, eye products, nail products, and other pigmented formulas.
What does Manganese Violet/Ci 77742 do in a cosmetic formula?
This ingredient is an inorganic colorant used to give decorative cosmetics, soaps, and personal care products a violet to purple shade. It is mainly used for shade building in powders, eye products, nail products, and other pigmented formulas.
Is Manganese Violet/Ci 77742 clean?
Clean-beauty frameworks generally treat it as a low-sensitization mineral pigment, with scrutiny focused on color-additive compliance and trace heavy-metal specifications. It is not a fragrance allergen, preservative, or ethoxylated material.
Is Manganese Violet/Ci 77742 sustainable?
This material is mineral-derived and synthetically processed, so it is not renewable or biodegradable in the way plant-based ingredients can be. Its environmental profile is mostly tied to mining, purification, calcination energy, and responsible control of metal-containing residues.
Is Manganese Violet/Ci 77742 COSMOS-approved?
It is generally permitted in COSMOS-natural and COSMOS-organic products as an inorganic colorant when it meets cosmetic colorant purity requirements, although it does not contribute organic content. Its Green Chemistry fit is moderate because it is inert and low-reactivity in use, but it relies on nonrenewable mineral feedstocks and energy-intensive processing.
How does Manganese Violet/Ci 77742 work chemically?
This material is an inorganic crystalline pigment built from pyrophosphate groups, ammonium ions, and transition-metal centers, with its color coming from the crystal structure rather than soluble dye behavior. It is insoluble and typically stable across anhydrous systems and standard cosmetic emulsions, with use levels ranging from trace shade adjustment to several percent depending on color intensity and dispersion quality.
Last updated 2026-05-13