Water is a great solvent. It’s neutral and doesn’t provide any strong positive or negative effects. It just helps components to mix better and to transport active components.
Butylene Glycol is a very popular synthetic alcohol. It helps the product to absorb deeper and faster. It is also a solvent for other ingredients. As for the skin benefits, it helps to attract water and helps to make the skin softer.
Dipropylene Glycol is a solvent, emulsifier, viscosity decreasing, and masking agent. It helps to extract useful chemicals from plants and leaves, making natural components in a product more effective. It also helps to hydrate the skin. Considered safe for health and doesn't irritate the skin in common concentration.
Benzyl Alcohol doesn’t belong to harmful alcohols and it will not dry your skin. It’s a stabilizing agent that prevents ingredients oxidization. Having this component in formulation the product will keep efficiency for a longer time. Benzyl Alcohol has a slight almond odor and is used as a fragrance ingredient very often.
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Silica
Silica is used for improving texture of the product. It helps the product to spread out evenly. Very often it’s used in different exfoliants as an abrasive. It's safe and non-toxic.
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Acrylates/Beheneth-25 Methacrylate Copolymer
Roles: Viscosity controlling
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PPG-8-Ceteth-20
Roles: Emulsifying, Surfactant
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Chlorphenesin
Roles: Antimicrobial, Biocide, Preservative
Chlorphenesin is a popular preservative. It doesn’t provide any skin-related positive effects and is used to prevent bacterial growth inside a product. It’s a weak preservative but works much better with silicones.
Allowed concentration: no more than 0,3% for European Union countries.
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Dehydroacetic Acid
Roles: Preservative
Antiseptic
Dehydroacetic Acid is a nice preservative. It has potent antifungal and antibacterial properties. It’s not toxic and it doesn’t irritate the skin. Used to increase the shelf life of a product.
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Sodium Hydroxide
Roles: Buffering
Sodium Hydroxide is used mostly for formulation purposes. It helps to hold the pH level of a product. It also works as a chemical exfoliator that removes dead cells. Usually concentration of this component is low in skin care products and it’s used mostly for adjusting pH.
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Tin Oxide
Roles: Abrasive, Bulking, Viscosity controlling
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Phenoxyethanol
Roles: Fragrance, Preservative
Antiseptic
Phenoxyethanol is one of the most popular preservatives. It kills bacteria and makes the product live longer. Manufacturers like this ingredient because it can dissolve in any liquid, even in oils.
Another purpose of this component is the fixation of aromas in perfumery. Phenoxyethanol is also used as a strong antiseptic and a good antibacterial agent. It is widely used in dermatological cosmetics alongside natural antiseptics such as chamomile, sage, and calendula.
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Iron Oxides
Roles: Colorant
Moisturizing
Iron Oxides are colorants. They give different colors to the product: yellow, red, or black. Different scientific researches show that they are much safer than other organic colorants. That's because they are much more stable and they don’t provoke allergic reactions. Though they can be received from minerals organically, manufacturers don’t use natural Iron Oxides. They chemically synthesize them in a laboratory to get a pure component without extra chemicals.
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Mica
Roles: Colorant
Mica is a natural mineral used in cosmetics because of its beautiful and shiny appearance. It’s used in powders, highlighters, and other makeup products. It’s absolutely neutral to our skin and will not cause any skin-related problems.
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Titanium Dioxide
Roles: Colorant
UV Protection
Titanium Dioxide is a very effective sunscreen. It belongs to physical sunscreens, meaning it reflects the UV rays like a mirror. The component is a mineral with white color. That’s why it’s also used in different powders as a pigment or brightener.
The component can be both safe and unsafe. It’s reported to be possibly carcinogenic to humans when inhaled. That’s why we don’t recommend using products where TiO2 is used in the form of powder and can be inhaled.
Sometimes it can be a nanoparticle. We recommend avoiding this form because it’s not researched well enough. A safer option is to use a non-nano form.
