Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin ●
TL;DR. This ingredient is a cationic hair-conditioning agent that helps the molecule bind to negatively charged hair fibers. It improves combability, softness, and the feel of damaged or chemically treated hair.
What does Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin do in a cosmetic formula?
This ingredient is a cationic hair-conditioning agent that helps the molecule bind to negatively charged hair fibers. It improves combability, softness, and the feel of damaged or chemically treated hair.
Is Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin clean?
From a clean-beauty perspective, it sits in the acceptable but compromised zone because it is a chemically modified protein derivative with cationic behavior. It is usually well tolerated at normal rinse-off use levels, but sourcing, residual processing chemicals, and animal-origin documentation can matter for stricter standards.
Is Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin sustainable?
This material is typically derived from it-rich animal byproducts, often wool or feathers, then chemically modified for better hair affinity. The protein backbone is biodegradable, but the added cationic functionality makes its environmental profile less straightforward than a simple hydrolyzed protein.
Is Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin COSMOS-approved?
This ingredient is not a clear fit for COSMOS-organic or COSMOS-natural formulas unless a supplier can document compliant sourcing and processing, and many versions would face friction because of the chemical modification. Its Green Chemistry alignment is mixed, with upcycled protein potential on one side and derivatization chemistry on the other.
How does Laurdimoni- Um Hydroxypropyl Hydrolyzed Keratin work chemically?
This compound is a hydrolyzed protein derivative carrying positive charge, which increases substantivity to damaged hair sites and improves deposition from shampoos, conditioners, and treatments. It is commonly used at low percentages in hair care, performs best in mildly acidic to neutral systems, and should be checked for compatibility with strongly anionic systems that can reduce clarity or cause complexing.
Last updated 2026-05-16