ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER

TL;DR. This ingredient is an it UV-filter system for sunscreen, combining UVB coverage with added UVA coverage to create broad-spectrum protection. In formula design, it also contributes opacity and a white cast because the particles are insoluble.

What does ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER do in a cosmetic formula?

This ingredient is an it UV-filter system for sunscreen, combining UVB coverage with added UVA coverage to create broad-spectrum protection. In formula design, it also contributes opacity and a white cast because the particles are insoluble.

Is ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER clean?

This ingredient is generally accepted in clean-beauty standards for sun-care because it has low systemic absorption and is usually well tolerated on skin. Main scrutiny is particle size, inhalable spray formats, and trace metal specifications rather than routine leave-on use.

Is ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER sustainable?

This material is mineral-derived and water-dispersed, so it is not renewable and is not biodegradable in the way plant-derived organics are. Environmental questions focus on mining footprint and persistence of fine particles in aquatic sediment, with coating and dispersion choices affecting behavior.

Is ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER COSMOS-approved?

It can be permitted under COSMOS-natural and COSMOS-organic sun-care when the grade, coatings, and particle-size documentation meet the standard and applicable UV-filter rules. From a Green Chemistry view, it scores for photostability and low skin reactivity, but loses points for mineral extraction, nonrenewable feedstock, and particle persistence.

How does ACTIVE INGREDIENTS TITANIUM DIOXIDE 9% ZINC OXIDE 6.3% INGREDIENTS: WATER work chemically?

This is a water-based dispersion of two insoluble inorganic particulate UV filters at 9% and 6.3%, where lattice band-gap effects plus surface scattering reduce UV transmission. It is photostable and generally stable across normal cosmetic pH ranges, but it often needs dispersants, surface coatings, or rheology support to limit agglomeration and visible whitening.

Last updated 2026-05-13