Titanium dioxide (TiO₂) is a common substance highly valued in the skincare industry. It appears as a white powder once purified and is primarily known for its ability to shield the skin from UV rays. Beyond this, it is used to brighten and enhance the texture of skincare products. From sunscreens to foundations, it plays a pivotal role. However, to use it effectively, it's crucial to understand its effects and best practices for integration into formulations. Here's an overview of the various uses and characteristics of this ingredient.
Library
All Topics
How to use titanium dioxide?
Summary
- Why is titanium dioxide a key ingredient in skincare?
- How to use titanium dioxide?
- What about the safety and usage precautions of titanium dioxide?
- Sources
Published April 3, 2025,
updated on June 11, 2025,
by
Jamal, PhD, Doctor of human pathology and infectious diseases
—
8 min read
Why is titanium dioxide a key ingredient in skincare?
The titanium dioxide is a natural mineral that becomes a fine white powder once processed, and it's this powder that gives it its strength. In skincare, it is primarily used for its sun protection effects. It acts as a shield against ultraviolet rays, by absorbing them. This helps to prevent sunburn, premature skin aging, and the development of skin cancer.
It is also widely used in products such as foundations, BB creams, and complexion correctors, where it provides a smoother and more even texture. Thanks to its white color, it helps to better cover imperfections and create a more uniform complexion. That's not all, it also has the ability to subtly brighten the skin, which is particularly sought after in tinted products, without however altering the natural color of the skin.
What makes TiO₂ even more popular is its stability and inability to penetrate the skin. This is a significant advantage for those with sensitive skin. In summary, it's a versatile ingredient that combines both effectiveness and safety, while providing visible cosmetic benefits.
4 minutes to understand your skin.
Our dermatological diagnostic guides you toward the ideal skincare for your specific needs.
Simple, quick, personalized.
How to use titanium dioxide?
The titanium dioxide is used in various forms in the skincare field, offering multiple benefits.
Using TiO₂ as a sunscreen filter.
TiO₂ is a key ingredient in many sunscreens. For optimal protection, products containing between 5% and 25% of TiO₂are generally recommended. This allows for effective coverage against UVA and UVB rays.
TiO₂, in the form of nanoparticles, allows for a more transparent application on the skin, without leaving that infamous white residue often associated with sunscreens. However, it's crucial that these particles are properly encapsulated, as poor management can lead to the formation of free radicals when exposed to UV rays.
For enhanced protection, it is also common tocombine TiO₂ with other sun filters, such as zinc oxide (ZnO), which extends photoprotective coverage against UV radiation.
Use of titanium dioxide in tinted products.
In tinted skincare products, titanium dioxide (CI 77891) is a widely used pigment due to its ability to provide opacity while offering a certain level of absorption. In the context of tinted products such as foundations or BB creams, it helps to improve the formula's durability and coverage level, while reducing to some degree the shiny areas of the face.
In powders, whether they are compact or loose, TiO₂ also plays a significant role by matting the skin and concealing minor imperfections, while providing a natural finish. However, it is crucial to incorporate it properly into the formula to avoid what is known as the "white mask" effect. Lastly, in lipsticks or lip glosses, its white color and stability make it an ideal ingredient to adjust shades and ensure long-lasting wear.
What about the safety and usage precautions of titanium dioxide?
The safety of using titanium dioxide in skincare is confirmed by several regulatory bodies. However, certain precautions must be applied, particularly for sprayable products, where it should not be used in sprays or aerosol products, as in case of inhalation, it can cause irritation of the respiratory tract, and loose powder products containing TiO₂ should be used with caution to avoid the risk of inhalation.
For products applied to the skin, studies show that TiO₂ remains on the skin's surface without penetrating into the deeper layers, thus minimizing systemic risks. Additionally, in formulations exposed to light, TiO₂ is often coated with a protective layer (silica or aluminum) to limit the formation of free radicals. This coating helps to prevent adverse reactions, while allowing TiO₂ to maintain its protective properties. Antioxidants are sometimes added to enhance this safety by neutralizing the free radicals generated by sun exposure, ensuring greater stability and effectiveness of the products.
Sources
MÜLLER-GOYMANN C. C. & al. Skin penetration and stabilization of formulations containing microfine titanium dioxide as physical UV filter. International Journal of Cosmetic Science (2000).
BUHSE L. F. & al. Lack of significant dermal penetration of titanium dioxide from sunscreen formulations containing nano- and submicron-size TiO2 particles. Toxicological Sciences (2010).
RIVIER J. E. & al. Safety evaluation of sunscreen formulations containing titanium dioxide and zinc oxide nanoparticles in UVB sunburned skin: An in vitro and in vivo study. Toxicological Sciences (2011).
Australia Government. Literature review on the safety of titanium dioxide and zinc oxide nanoparticles in sunscreens. Therapeutic Goods Administration (2017).
MARINOVICH M. & al. Safety of titanium dioxide nanoparticles in cosmetics. Journal of the European Academy of Dermatology and Venereology (2019).
VASSEUR P. & al. Valeurs toxicologiques de référence - Le dioxyde de titane sous forme nanoparticulaire. Avis de l’Anses. Collective Expert Appraisal Report (2019).
YANG M. & al. Antioxidant functionalized silica-coated TiO2 nanorods to enhance the thermal and photo stability of polypropylene. Applied Surface Science (2019).
PARISI F. & al. TiO2 in the food industry and cosmetics. In Titanium Dioxide (Tio₂) and Its Applications (2021).
TOMSIC B. & al. Influence of titanium dioxide nanoparticles on human health and the environment. Nanomaterials (2021).
RACOVITA A. D. Titanium dioxide: Structure, impact and toxicity. International Journal of Environmental Research and Public Health (2022).
Scientific Committee on Consumer Safety (SCCS). Opinion on new coating for Titanium Dioxide (nano form) as UV-filter in dermally applied cosmetic products - European Commission (2024).
Diagnostic
Understand your skin
and its complex needs.
