LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE ●
TL;DR. This ingredient is a cationic conditioning agent and film-former used mainly in hair care to improve slip, combability, softness, and frizz control. It can also add a lubricious feel in skin-care formulas.
What does LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE do in a cosmetic formula?
This ingredient is a cationic conditioning agent and film-former used mainly in hair care to improve slip, combability, softness, and frizz control. It can also add a lubricious feel in skin-care formulas.
Is LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE clean?
From a clean-beauty perspective, it has significant friction because it is a synthetic organosilicon-based conditioning polymer with permanent cationic charge. It is not typically aligned with restricted-list programs that limit persistent silicones or certain quaternary conditioning materials.
Is LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE sustainable?
This material is synthetically produced and relies partly on organosilicon chemistry, with possible fatty-derived inputs depending on supplier sourcing. Its environmental profile is limited by low expected biodegradability and wastewater persistence concerns.
Is LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE COSMOS-approved?
It is generally not permitted under COSMOS-natural or COSMOS-organic standards because of its synthetic organosilicon and cationic polymer character. Its fit with Green Chemistry is weak, since it is not readily biodegradable and is not primarily based on simple renewable, low-impact chemistry.
How does LINOLEAMIDOPROPYL PG-DIMONIUM CHLORIDE PHOSPHATE DIMETHICONE work chemically?
The molecule combines a hydrophobic conditioning chain, a permanently charged nitrogen center, and an organosilicon backbone, which helps it deposit onto negatively charged hair fibers. It is usually used at low conditioning-agent levels in rinse-off and leave-on hair products, and it is best formulated with attention to compatibility with anionic surfactants, which can reduce clarity or form complexes.
Last updated 2026-05-13