Mipa-Laureth Sulfate ●
TL;DR. This ingredient is an anionic surfactant used for cleansing, foam generation, and wetting in shampoos, body washes, hand soaps, and facial cleansers. It helps lift oil and soil from skin or hair and supports dense lather in rinse-off formulas.
What does Mipa-Laureth Sulfate do in a cosmetic formula?
This ingredient is an anionic surfactant used for cleansing, foam generation, and wetting in shampoos, body washes, hand soaps, and facial cleansers. It helps lift oil and soil from skin or hair and supports dense lather in rinse-off formulas.
Is Mipa-Laureth Sulfate clean?
From a clean-beauty perspective, this ingredient has friction because it-based cleansing systems can be more irritating for some skin types, especially at higher active levels or in low-mildness formulas. Its ethoxylated manufacturing route also raises quality-control questions around residual ethylene oxide and 1,4-dioxane, which reputable suppliers manage through purification and testing.
Is Mipa-Laureth Sulfate sustainable?
This material is typically made from a fatty alcohol that may come from coconut, palm, or petroleum-linked sources, then further processed through ethoxylation and sulfation. It is generally expected to biodegrade in wastewater conditions, but its sourcing and processing are less aligned with low-impact natural-ingredient frameworks.
Is Mipa-Laureth Sulfate COSMOS-approved?
This ingredient is not aligned with COSMOS-natural or COSMOS-organic standards because ethoxylated surfactants are generally outside the permitted chemistry set. From a Green Chemistry lens, it has the benefit of effective cleansing at low concentrations and likely biodegradability, but its petrochemical processing step and residue-control burden weaken its profile.
How does Mipa-Laureth Sulfate work chemically?
The molecule is an ethoxylated C12 fatty alcohol it paired with an isopropanolamine counterion, which gives it strong water solubility and high-foam anionic behavior. It is commonly used in rinse-off cleansing systems at a few percent to the low teens as supplied, with mildness adjusted through amphoteric co-surfactants, nonionic surfactants, polymers, and pH control around the skin-compatible range.
Last updated 2026-05-13